Home
  >  
Section 55

EurekaMag Full Text Articles Chapter 54,544



References:

Suh, D.; Yasuoka, K. 2011: Nanoparticle growth analysis by molecular dynamics: spherical seed. Journal of Physical Chemistry. B 115(36): 10631-10645
Munnik, P.; Velthoen, M.E.Z.; de Jongh, P.E.; de Jong, K.P.; Gommes, C.J. 2014: Nanoparticle growth in supported nickel catalysts during methanation reaction--larger is better. Angewandte Chemie 53(36): 9493-9497
Liao, H-Gang.; Zherebetskyy, D.; Xin, H.; Czarnik, C.; Ercius, P.; Elmlund, H.; Pan, M.; Wang, L-Wang.; Zheng, H. 2014: Nanoparticle growth. Facet development during platinum nanocube growth. Science 345(6199): 916-919
Moyano, D.F.; Goldsmith, M.; Solfiell, D.J.; Landesman-Milo, D.; Miranda, O.R.; Peer, D.; Rotello, V.M. 2012: Nanoparticle hydrophobicity dictates immune response. Journal of the American Chemical Society 134(9): 3965-3967
Parikesit, G.O.F.; Guasto, J.S.; Girardo, S.; Mele, E.; Stabile, R.; Pisignano, D.; Lindken, R.; Westerweel, J. 2009: Nanoparticle image velocimetry at topologically structured surfaces. Biomicrofluidics 3(4): 44111
Mathew, N.D.; Mathew, M.D.; Surawski, P.P.T. 2014: Nanoparticle imaging and diagnostic of Caenorhabditis elegans intracellular pH. Analytical Biochemistry 450: 52-56
Eisner, B.H.; Feldman, A.S. 2009: Nanoparticle imaging for genitourinary cancers. Cancer Biomarkers: Section a of Disease Markers 5(2): 75-79
Azubel, M.; Koivisto, J.; Malola, S.; Bushnell, D.; Hura, G.L.; Koh, A.Leen.; Tsunoyama, H.; Tsukuda, T.; Pettersson, M.; Häkkinen, H.; Kornberg, R.D. 2014: Nanoparticle imaging. Electron microscopy of gold nanoparticles at atomic resolution. Science 345(6199): 909-912
Heinze, B.C.; Yoon, J-Yeol. 2011: Nanoparticle immunoagglutination Rayleigh scatter assay to complement microparticle immunoagglutination Mie scatter assay in a microfluidic device. Colloids and Surfaces. B Biointerfaces 85(2): 168-173
Tschulik, K.; Compton, R.G. 2014: Nanoparticle impacts reveal magnetic field induced agglomeration and reduced dissolution rates. Physical Chemistry Chemical Physics: Pccp 16(27): 13909-13913
Lees, J.C.; Ellison, J.; Batchelor-McAuley, C.; Tschulik, K.; Damm, C.; Omanović, D.; Compton, R.G. 2013: Nanoparticle impacts show high-ionic-strength citrate avoids aggregation of silver nanoparticles. Chemphyschem: a European Journal of Chemical Physics and Physical Chemistry 14(17): 3895-3897
Jallouk, A.P.; Moley, K.H.; Omurtag, K.; Hu, G.; Lanza, G.M.; Wickline, S.A.; Hood, J.L. 2014: Nanoparticle incorporation of melittin reduces sperm and vaginal epithelium cytotoxicity. Plos one 9(4): E95411
Elbez, R.; McNaughton, B.H.; Patel, L.; Pienta, K.J.; Kopelman, R. 2011: Nanoparticle induced cell magneto-rotation: monitoring morphology, stress and drug sensitivity of a suspended single cancer cell. Plos one 6(12): E28475
Roy, S.; Basak, S.; Dasgupta, A.Kr. 2010: Nanoparticle induced conformational change in DNA and chirality of silver nanoclusters. Journal of Nanoscience and Nanotechnology 10(2): 819-825
Gupta, M.; Satpathy, I.; Roy, A.; Pratibha, R. 2010: Nanoparticle induced director distortion and disorder in liquid crystal-nanoparticle dispersions. Journal of Colloid and Interface Science 352(2): 292-298
Nogueira, D.Rubert.; Rolim, C.M.Bueno.; Farooqi, A.Ahmad. 2014: Nanoparticle induced oxidative stress in cancer cells: adding new pieces to an incomplete jigsaw puzzle. Asian Pacific Journal of Cancer Prevention: Apjcp 15(12): 4739-4743
Tiwari, V.K.; Shripathi, T.; Lalla, N.P.; Maiti, P. 2012: Nanoparticle induced piezoelectric, super toughened, radiation resistant, multi-functional nanohybrids. Nanoscale 4(1): 167-175
Helgesen, G.; Svåsand, E.; Skjeltorp, A.T. 2008: Nanoparticle induced self-assembly. Journal of Physics. Condensed Matter: An Institute of Physics Journal 20(20): 204127
Rodríguez-Cruz, I.M.; Domínguez-Delgado, C.L.; Escobar-Chávez, J.J.; Leyva-Gómez, G.; Ganem-Quintanar, A.; Quintanar-Guerrero, D. 2009: Nanoparticle infiltration to prepare solvent-free controlled drug delivery systems. International Journal of Pharmaceutics 371(1-2): 177-181
Knuckles, T.L.; Yi, J.; Frazer, D.G.; Leonard, H.D.; Chen, B.T.; Castranova, V.; Nurkiewicz, T.R. 2012: Nanoparticle inhalation alters systemic arteriolar vasoreactivity through sympathetic and cyclooxygenase-mediated pathways. Nanotoxicology 6(7): 724-735
Nurkiewicz, T.R.; Porter, D.W.; Hubbs, A.F.; Cumpston, J.L.; Chen, B.T.; Frazer, D.G.; Castranova, V. 2008: Nanoparticle inhalation augments particle-dependent systemic microvascular dysfunction. Particle and Fibre Toxicology 5: 1
LeBlanc, A.J.; Moseley, A.M.; Chen, B.T.; Frazer, D.; Castranova, V.; Nurkiewicz, T.R. 2010: Nanoparticle inhalation impairs coronary microvascular reactivity via a local reactive oxygen species-dependent mechanism. Cardiovascular Toxicology 10(1): 27-36
LeBlanc, A.J.; Cumpston, J.L.; Chen, B.T.; Frazer, D.; Castranova, V.; Nurkiewicz, T.R. 2009: Nanoparticle inhalation impairs endothelium-dependent vasodilation in subepicardial arterioles. Journal of Toxicology and Environmental Health. Part a 72(24): 1576-1584
Lee, C.K.; Hua, C.C. 2010: Nanoparticle interaction potentials constructed by multiscale computation. Journal of Chemical Physics 132(22): 224904
Leroueil, P.R.; Hong, S.; Mecke, A.; Baker, J.R.; Orr, B.G.; Banaszak Holl, M.M. 2007: Nanoparticle interaction with biological membranes: does nanotechnology present a Janus face?. Accounts of Chemical Research 40(5): 335-342
Harishchandra, R.Kumar.; Saleem, M.; Galla, H-Joachim. 2010: Nanoparticle interaction with model lung surfactant monolayers. Journal of the Royal Society Interface 7 Suppl. 1: S15-S26
Aggarwal, P.; Hall, J.B.; McLeland, C.B.; Dobrovolskaia, M.A.; McNeil, S.E. 2009: Nanoparticle interaction with plasma proteins as it relates to particle biodistribution, biocompatibility and therapeutic efficacy. Advanced Drug Delivery Reviews 61(6): 428-437
Kah, J.Chen.Yong.; Yeo, E.Li.Ling.; Koh, W.Ling.; Poinard, B.Elodie.Ariane.; Neo, D.Jing.Hui. 2013: Nanoparticle interface to biology: applications in probing and modulating biological processes. Critical Reviews in Biomedical Engineering 41(4-5): 323-341
Borchard, G.; Flühmann, B.; Mühlebach, S. 2012: Nanoparticle iron medicinal products - Requirements for approval of intended copies of non-biological complex drugs (NBCD) and the importance of clinical comparative studies. Regulatory Toxicology and Pharmacology: Rtp 64(2): 324-328
Xiang, L.; Chan, R.W.S.; Ng, E.H.Y.; Yeung, W.S.B. 2014: Nanoparticle labeling identifies slow cycling human endometrial stromal cells. Stem Cell Research and Therapy 5(4): 84
Chen, B.; Hu, B.; Jiang, P.; He, M.; Peng, H.; Zhang, X. 2011: Nanoparticle labelling-based magnetic immunoassay on chip combined with electrothermal vaporization-inductively coupled plasma mass spectrometry for the determination of carcinoembryonic antigen in human serum. Analyst 136(19): 3934-3942
Csaki, A.; Jahn, F.; Latka, I.; Henkel, T.; Malsch, D.; Schneider, T.; Schröder, K.; Schuster, K.; Schwuchow, A.; Spittel, R.; Zopf, D.; Fritzsche, W. 2010: Nanoparticle layer deposition for plasmonic tuning of microstructured optical fibers. Small 6(22): 2584-2589
Duskey, J.T.; Rice, K.G. 2014: Nanoparticle ligand presentation for targeting solid tumors. Aaps Pharmscitech 15(5): 1345-1354
Hossain, M.; Su, M. 2012: Nanoparticle location and material dependent dose enhancement in X-ray radiation therapy. Journal of Physical Chemistry. C Nanomaterials and Interfaces 116(43): 23047-23052
Wei, N.; Wang, H-Qiong.; Zheng, J-Cheng. 2012: Nanoparticle manipulation by thermal gradient. Nanoscale Research Letters 7(1): 154
Kolanjiyil, A.V.; Kleinstreuer, C. 2013: Nanoparticle mass transfer from lung airways to systemic regions--Part I: Whole-lung aerosol dynamics. Journal of Biomechanical Engineering 135(12): 121003
Kolanjiyil, A.V.; Kleinstreuer, C. 2013: Nanoparticle mass transfer from lung airways to systemic regions--Part II: Multi-compartmental modeling. Journal of Biomechanical Engineering 135(12): 121004
Malmo, J.; Sandvig, A.; Vårum, K.M.; Strand, S.P. 2013: Nanoparticle mediated P-glycoprotein silencing for improved drug delivery across the blood-brain barrier: a siRNA-chitosan approach. Plos one 8(1): E54182
Nagpal, K.; Singh, S.Kumar.; Mishra, D.Nath. 2012: Nanoparticle mediated brain targeted delivery of gallic acid: in vivo behavioral and biochemical studies for improved antioxidant and antidepressant-like activity. Drug Delivery 19(8): 378-391
Nagpal, K.; Singh, S.K.; Mishra, D.N. 2013: Nanoparticle mediated brain targeted delivery of gallic acid: in vivo behavioral and biochemical studies for protection against scopolamine-induced amnesia. Drug Delivery 20(3-4): 112-119
Roy, A.; Singh, M.Smriti.; Upadhyay, P.; Bhaskar, S. 2013: Nanoparticle mediated co-delivery of paclitaxel and a TLR-4 agonist results in tumor regression and enhanced immune response in the tumor microenvironment of a mouse model. International Journal of Pharmaceutics 445(1-2): 171-180
Zhang, L.; Zhou, Y.; Li, G.; Zhao, Y.; Gu, X.; Yang, Y. 2014: Nanoparticle mediated controlled delivery of dual growth factors. Science China. Life Sciences 57(2): 256-262
Beisner, J.; Dong, M.; Taetz, S.; Nafee, N.; Griese, E-Ulrich.; Schaefer, U.; Lehr, C-Michael.; Klotz, U.; Mürdter, T.E. 2010: Nanoparticle mediated delivery of 2'-O-methyl-RNA leads to efficient telomerase inhibition and telomere shortening in human lung cancer cells. Lung Cancer 68(3): 346-354
Burford, C.D.; Bhattacharyya, K.D.; Boriraksantikul, N.; Whiteside, P.J.D.; Robertson, B.P.; Peth, S.M.; Islam, N.E.; Viator, J.A. 2013: Nanoparticle mediated thermal ablation of breast cancer cells using a nanosecond pulsed electric field. IEEE Transactions on Nanobioscience 12(2): 112-118
Wu, B.; Tillman, P.; McCue, S.W.; Hill, J.M. 2009: Nanoparticle melting as a stefan moving boundary problem. Journal of Nanoscience and Nanotechnology 9(2): 885-888
Baumgardner, W.J.; Yu, Y.; Hovden, R.; Honrao, S.; Hennig, R.G.; Abruña, Héctor.D.; Muller, D.; Hanrath, T. 2014: Nanoparticle metamorphosis: an in situ high-temperature transmission electron microscopy study of the structural evolution of heterogeneous Au:Fe2O3 nanoparticles. Acs Nano 8(5): 5315-5322
Candeloro, P.; Tirinato, L.; Malara, N.; Fregola, A.; Casals, E.; Puntes, V.; Perozziello, G.; Gentile, F.; Coluccio, M.Laura.; Das, G.; Liberale, C.; De Angelis, F.; Di Fabrizio, E. 2011: Nanoparticle microinjection and Raman spectroscopy as tools for nanotoxicology studies. Analyst 136(21): 4402-4408
Dähne, L. 2009: Nanoparticle missiles from exploding polyelectrolyte capsules. Angewandte Chemie 48(23): 4106-4108
Haase, M.F.; Grigoriev, D.; Moehwald, H.; Tiersch, B.; Shchukin, D.G. 2011: Nanoparticle modification by weak polyelectrolytes for pH-sensitive pickering emulsions. Langmuir 27(1): 74-82
Guo, H.; Bourret, G.; Corbierre, M.K.; Rucareanu, S.; Lennox, R.Bruce.; Laaziri, K.; Piche, L.; Sutton, M.; Harden, J.L.; Leheny, R.L. 2009: Nanoparticle motion within glassy polymer melts. Physical Review Letters 102(7): 075702
Batson, P.E.; Reyes-Coronado, A.; Barrera, R.G.; Rivacoba, A.; Echenique, P.M.; Aizpurua, J. 2012: Nanoparticle movement: plasmonic forces and physical constraints. Ultramicroscopy 123: 50-58
Hennig, R.; Pollinger, K.; Veser, A.; Breunig, M.; Goepferich, A. 2014: Nanoparticle multivalency counterbalances the ligand affinity loss upon PEGylation. Journal of Controlled Release: Official Journal of the Controlled Release Society 194: 20-27
Agarwal, P.; Chopra, M.; Archer, L.A. 2011: Nanoparticle netpoints for shape-memory polymers. Angewandte Chemie 50(37): 8670-8673
Zimbovskaya, N.A.; Pederson, M.R.; Blum, A.S.; Ratna, B.R.; Allen, R. 2009: Nanoparticle networks as chemoselective sensing devices. Journal of Chemical Physics 130(9): 094702
Scotognella, F.; Puzzo, D.P.; Monguzzi, A.; Wiersma, D.S.; Maschke, D.; Tubino, R.; Ozin, G.A. 2009: Nanoparticle one-dimensional photonic-crystal dye laser. Small 5(18): 2048-2052
Sknepnek, R.; Anderson, J.A.; Lamm, M.H.; Schmalian, Jörg.; Travesset, A. 2008: Nanoparticle ordering via functionalized block copolymers in solution. Acs Nano 2(6): 1259-1265
Curk, T.; Martinez-Veracoechea, F.J.; Frenkel, D.; Dobnikar, J. 2014: Nanoparticle organization in sandwiched polymer brushes. Nano Letters 14(5): 2617-2622
Snell, K.E.; Stéphant, N.; Pansu, R.B.; Audibert, J-Frédéric.; Lagugné-Labarthet, Fçois.; Ishow, Eéna. 2014: Nanoparticle organization through photoinduced bulk mass transfer. Langmuir 30(10): 2926-2935
Lagzi, Ián.; Kowalczyk, B.; Wang, D.; Grzybowski, B.A. 2010: Nanoparticle oscillations and fronts. Angewandte Chemie 49(46): 8616-8619
Swyer, T.W.; Strom, J.; Larson, D.F. 2014: Nanoparticle oxygen delivery to the ischemic heart. Perfusion 29(6): 539-543
Corredor, E.; Testillano, P.S.; Coronado, Mía-José.; González-Melendi, P.; Fernández-Pacheco, R.; Marquina, C.; Ibarra, M.Ricardo.; de la Fuente, Jús.M.; Rubiales, D.; Pérez-de-Luque, A.; Risueño, Mía-Carmen. 2009: Nanoparticle penetration and transport in living pumpkin plants: in situ subcellular identification. Bmc Plant Biology 9: 45
Yang, M.; Lai, S.K.; Yu, T.; Wang, Y-Ying.; Happe, C.; Zhong, W.; Zhang, M.; Anonuevo, A.; Fridley, C.; Hung, A.; Fu, J.; Hanes, J. 2014: Nanoparticle penetration of human cervicovaginal mucus: the effect of polyvinyl alcohol. Journal of Controlled Release: Official Journal of the Controlled Release Society 192: 202-208
Rengasamy, S.; Eimer, B.C. 2012: Nanoparticle penetration through filter media and leakage through face seal interface of N95 filtering facepiece respirators. Annals of Occupational Hygiene 56(5): 568-580
Song, B.; Yuan, H.; Pham, S.V.; Jameson, C.J.; Murad, S. 2012: Nanoparticle permeation induces water penetration, ion transport, and lipid flip-flop. Langmuir 28(49): 16989-17000
Bouzier-Sore, A-Karine.; Ribot, E.; Bouchaud, Véronique.; Miraux, S.; Duguet, E.; Mornet, Séphane.; Clofent-Sanchez, Gèle.; Franconi, J-Michel.; Voisin, P. 2010: Nanoparticle phagocytosis and cellular stress: involvement in cellular imaging and in gene therapy against glioma. Nmr in Biomedicine 23(1): 88-96
Neubauer, A.M.; Sim, H.; Winter, P.M.; Caruthers, S.D.; Williams, T.A.; Robertson, J.David.; Sept, D.; Lanza, G.M.; Wickline, S.A. 2008: Nanoparticle pharmacokinetic profiling in vivo using magnetic resonance imaging. Magnetic Resonance in Medicine 60(6): 1353-1361
Pedersen, T.G.; Jung, J.; Søndergaard, T.; Pedersen, K. 2011: Nanoparticle plasmon resonances in the near-static limit. Optics Letters 36(5): 713-715
Ueno, K.; Juodkazis, S.; Shibuya, T.; Yokota, Y.; Mizeikis, V.; Sasaki, K.; Misawa, H. 2008: Nanoparticle plasmon-assisted two-photon polymerization induced by incoherent excitation source. Journal of the American Chemical Society 130(22): 6928-6929
Hägglund, C.; Kasemo, B. 2009: Nanoparticle plasmonics for 2D-photovoltaics: mechanisms, optimization, and limits. Optics Express 17(14): 11944-11957
Tada, D.B.; Rossi, L.M.; Leite, C.A.P.; Itri, R.; Baptista, M.S. 2010: Nanoparticle platform to modulate reaction mechanism of phenothiazine photosensitizers. Journal of Nanoscience and Nanotechnology 10(5): 3100-3108
Fujii, R.; Guo, J.; Klepp, Jürgen.; Pruner, C.; Fally, M.; Tomita, Y. 2014: Nanoparticle polymer composite volume gratings incorporating chain transfer agents for holography and slow-neutron optics. Optics Letters 39(12): 3453-3456
Niemann, Börn.; Sundmacher, K. 2010: Nanoparticle precipitation in microemulsions: Population balance model and identification of bivariate droplet exchange kernel. Journal of Colloid and Interface Science 342(2): 361-371
Niemann, Börn.; Veit, P.; Sundmacher, K. 2008: Nanoparticle precipitation in reverse microemulsions: particle formation dynamics and tailoring of particle size distributions. Langmuir 24(8): 4320-4328
Shenoi, M.M.; Shah, N.B.; Griffin, R.J.; Vercellotti, G.M.; Bischof, J.C. 2011: Nanoparticle preconditioning for enhanced thermal therapies in cancer. Nanomedicine 6(3): 545-563
Mossoba, M.M.; Al-Khaldi, S.F.; Schoen, B.; Yakes, B.Jean. 2010: Nanoparticle probes and mid-infrared chemical imaging for DNA microarray detection. Applied Spectroscopy 64(11): 1191-1198
Fukami, T.; Ishii, T.; Io, T.; Suzuki, N.; Suzuki, T.; Yamamoto, K.; Xu, J.; Ramamoorthy, A.; Tomono, K. 2009: Nanoparticle processing in the solid state dramatically increases the cell membrane permeation of a cholesterol-lowering drug, probucol. Molecular Pharmaceutics 6(3): 1029-1035
Van Landuyt, K.L.; Hellack, B.; Van Meerbeek, B.; Peumans, M.; Hoet, P.; Wiemann, M.; Kuhlbusch, T.A.J.; Asbach, C. 2014: Nanoparticle release from dental composites. Acta Biomaterialia 10(1): 365-374
Echegoyen, Y.; Nerín, C. 2013: Nanoparticle release from nano-silver antimicrobial food containers. Food and Chemical Toxicology: An International Journal Published for the British Industrial Biological Research Association 62: 16-22
Guldiken, R.; Makaram, P.; Bakhtari, K.; Park, J.; Busnaina, A.A. 2007: Nanoparticle scanning and detection on flat and structured surfaces using fluorescence microscopy. Microscopy Research and Technique 70(6): 534-538
Pang, H.; Yang, H.; Guo, C.Xian.; Lu, J.; Li, C.Ming. 2012: Nanoparticle self-assembled hollow TiO2 spheres with well matching visible light scattering for high performance dye-sensitized solar cells. Chemical Communications 48(70): 8832-8834
Martín-García, B.; Velázquez, M.Mercedes. 2014: Nanoparticle self-assembly assisted by polymers: the role of shear stress in the nanoparticle arrangement of Langmuir and Langmuir-Blodgett films. Langmuir 30(2): 509-516
Xu, L.; Tremblay, M-Laurence.; Orrell, K.E.; Leclerc, Jérémie.; Meng, Q.; Liu, X-Qin.; Rainey, J.K. 2013: Nanoparticle self-assembly by a highly stable recombinant spider wrapping silk protein subunit. Febs Letters 587(19): 3273-3280
von Maltzahn, G.; Harris, T.J.; Park, J-Ho.; Min, D-Hee.; Schmidt, A.J.; Sailor, M.J.; Bhatia, S.N. 2007: Nanoparticle self-assembly gated by logical proteolytic triggers. Journal of the American Chemical Society 129(19): 6064-6065
Puchner, E.M.; Kufer, S.K.; Strackharn, M.; Stahl, S.W.; Gaub, H.E. 2008: Nanoparticle self-assembly on a DNA-scaffold written by single-molecule cut-and-paste. Nano Letters 8(11): 3692-3695
Nikolov, A.; Kondiparty, K.; Wasan, D. 2010: Nanoparticle self-structuring in a nanofluid film spreading on a solid surface. Langmuir 26(11): 7665-7670
Ali, M.E.; Hashim, U.; Mustafa, S.; Man, Y.B.Che.; Yusop, M.H.M.; Bari, M.F.; Islam, K.N.; Hasan, M.F. 2011: Nanoparticle sensor for label free detection of swine DNA in mixed biological samples. Nanotechnology 22(19): 195503
Ahrenkiel, S.P.; Yu, P.R.; Murphy, J.E.; Nedeljković, J.M.; Donohoe, B.S. 2008: Nanoparticle shape and configuration analysis by transmission electron tomography. Journal of Microscopy 230(Pt 3): 382-387
Jones, M.R.; Macfarlane, R.J.; Prigodich, A.E.; Patel, P.C.; Mirkin, C.A. 2011: Nanoparticle shape anisotropy dictates the collective behavior of surface-bound ligands. Journal of the American Chemical Society 133(46): 18865-18869
Huitink, D.; Kundu, S.; Park, C.; Mallick, B.; Huang, J.Z.; Liang, H. 2010: Nanoparticle shape evolution identified through multivariate statistics. Journal of Physical Chemistry. a 114(17): 5596-5600
Loverde, S.M.; Klein, M.L.; Discher, D.E. 2012: Nanoparticle shape improves delivery: rational coarse grain molecular dynamics (rCG-MD) of taxol in worm-like PEG-PCL micelles. Advanced Materials 24(28): 3823-3830
Secinti, K.Devrim.; Özalp, H.; Attar, A.; Sargon, M.F. 2011: Nanoparticle silver ion coatings inhibit biofilm formation on titanium implants. Journal of Clinical Neuroscience: Official Journal of the Neurosurgical Society of Australasia 18(3): 391-395
Wada, Y.; Totoki, S.; Watanabe, M.; Moriya, N.; Tsunazawa, Y.; Shimaoka, H. 2006: Nanoparticle size analysis with relaxation of induced grating by dielectrophoresis. Optics Express 14(12): 5755-5764
Lopes, A.Catarina.; Carabineiro, S.A.C.; Pereira, M.Fernando.R.; Botelho, G.; Lanceros-Mendez, S. 2013: Nanoparticle size and concentration dependence of the electroactive phase content and electrical and optical properties of Ag/poly(vinylidene fluoride) composites. Chemphyschem: a European Journal of Chemical Physics and Physical Chemistry 14(9): 1926-1933
Dobrovolskaia, M.A.; Patri, A.K.; Simak, J.; Hall, J.B.; Semberova, J.; De Paoli Lacerda, S.H.; McNeil, S.E. 2012: Nanoparticle size and surface charge determine effects of PAMAM dendrimers on human platelets in vitro. Molecular Pharmaceutics 9(3): 382-393
Walkey, C.D.; Olsen, J.B.; Guo, H.; Emili, A.; Chan, W.C.W. 2012: Nanoparticle size and surface chemistry determine serum protein adsorption and macrophage uptake. Journal of the American Chemical Society 134(4): 2139-2147
Venugopal, E.; Aswal, V.K.; Kumaraswamy, G. 2013: Nanoparticle size controls aggregation in lamellar nonionic surfactant mesophase. Langmuir 29(31): 9643-9650
Lee, S.; Bi, X.; Reed, R.B.; Ranville, J.F.; Herckes, P.; Westerhoff, P. 2014: Nanoparticle size detection limits by single particle ICP-MS for 40 elements. Environmental Science and Technology 48(17): 10291-10300
Gomez, M.Victoria.; Guerra, J.; Myers, V.Sue.; Crooks, R.M.; Velders, A.H. 2009: Nanoparticle size determination by (1)H NMR spectroscopy. Journal of the American Chemical Society 131(41): 14634-14635
Zhu, X.; Mason, T.G. 2014: Nanoparticle size distributions measured by optical adaptive-deconvolution passivated-gel electrophoresis. Journal of Colloid and Interface Science 435: 67-74
Stano, A.; Nembrini, C.; Swartz, M.A.; Hubbell, J.A.; Simeoni, E. 2012: Nanoparticle size influences the magnitude and quality of mucosal immune responses after intranasal immunization. Vaccine 30(52): 7541-7546
Tenzer, S.; Docter, D.; Rosfa, S.; Wlodarski, A.; Kuharev, Jörg.; Rekik, A.; Knauer, S.K.; Bantz, C.; Nawroth, T.; Bier, C.; Sirirattanapan, J.; Mann, W.; Treuel, L.; Zellner, R.; Maskos, M.; Schild, Hörg.; Stauber, R.H. 2011: Nanoparticle size is a critical physicochemical determinant of the human blood plasma corona: a comprehensive quantitative proteomic analysis. Acs Nano 5(9): 7155-7167
Hu, Z.; Zhang, H.; Zhang, Y.; Wu, R'an.; Zou, H. 2014: Nanoparticle size matters in the formation of plasma protein coronas on Fe3O4 nanoparticles. Colloids and Surfaces. B Biointerfaces 121: 354-361
Anonymous 2013: Nanoparticle size-based targeting of an anti-inflammatory peptide to treat osteoarthritis. Nanomedicine 8(3): 330
Xu, X.; Cristancho, D.E.; Costeux, Séphane.; Wang, Z-Gang. 2014: Nanoparticle solvation in polymer-CO2 mixtures. Journal of Physical Chemistry. B 118(28): 8002-8007
Mayoral, A.; Barron, H.; Estrada-Salas, R.; Vazquez-Duran, A.; José-Yacamán, M. 2010: Nanoparticle stability from the nano to the meso interval. Nanoscale 2(3): 335-342
Dutta, N.; Green, D. 2008: Nanoparticle stability in semidilute and concentrated polymer solutions. Langmuir 24(10): 5260-5269
Agostinelli, E.; Vianello, F.; Magliulo, G.; Thomas, T.; Thomas, T.J. 2015: Nanoparticle strategies for cancer therapeutics: Nucleic acids, polyamines, bovine serum amine oxidase and iron oxide nanoparticles (Review). International Journal of Oncology 46(1): 5-16
McDonagh, C.; Stranik, O.; Nooney, R.; Maccraith, B.D. 2009: Nanoparticle strategies for enhancing the sensitivity of fluorescence-based biochips. Nanomedicine 4(6): 645-656
Damgé, C.; Reis, C.Pinto.; Maincent, P. 2008: Nanoparticle strategies for the oral delivery of insulin. Expert Opinion on Drug Delivery 5(1): 45-68
Kim, H.Suk.; Lee, C.Hee.; Sudeep, P.K.; Emrick, T.; Crosby, A.J. 2010: Nanoparticle stripes, grids, and ribbons produced by flow coating. Advanced Materials 22(41): 4600-4604
Macfarlane, R.J.; Lee, B.; Jones, M.R.; Harris, N.; Schatz, G.C.; Mirkin, C.A. 2011: Nanoparticle superlattice engineering with DNA. Science 334(6053): 204-208
Chen, W.; Bian, A.; Agarwal, A.; Liu, L.; Shen, H.; Wang, L.; Xu, C.; Kotov, N.A. 2009: Nanoparticle superstructures made by polymerase chain reaction: collective interactions of nanoparticles and a new principle for chiral materials. Nano Letters 9(5): 2153-2159
Kowalczyk, B.; Walker, D.A.; Soh, S.; Grzybowski, B.A. 2010: Nanoparticle supracrystals and layered supracrystals as chemical amplifiers. Angewandte Chemie 49(33): 5737-5741
Ma, J.; Xu, R.; Sun, J.; Zhao, D.; Tong, J.; Sun, X. 2013: Nanoparticle surface and nanocore properties determine the effect on radiosensitivity of cancer cells upon ionizing radiation treatment. Journal of Nanoscience and Nanotechnology 13(2): 1472-1475
Biswas, N.; Rahman, A.; Datta, A.; Goswami, A.; Bramhachary, R.Lal. 2010: Nanoparticle surface as activation site. Journal of Nanoscience and Nanotechnology 10(11): 7083-7087
Chen, R.; Zhang, Y.; Sahneh, F.Darabi.; Scoglio, C.M.; Wohlleben, W.; Haase, A.; Monteiro-Riviere, N.A.; Riviere, J.E. 2014: Nanoparticle surface characterization and clustering through concentration-dependent surface adsorption modeling. Acs Nano 8(9): 9446-9456
Fleischer, C.C.; Payne, C.K. 2012: Nanoparticle surface charge mediates the cellular receptors used by protein-nanoparticle complexes. Journal of Physical Chemistry. B 116(30): 8901-8907
Chandra, M.; Knappenberger, K.L. 2013: Nanoparticle surface electromagnetic fields studied by single-particle nonlinear optical spectroscopy. Physical Chemistry Chemical Physics: Pccp 15(12): 4177-4182
Sarkar, B.; Venugopal, V.; Bodratti, A.M.; Tsianou, M.; Alexandridis, P. 2013: Nanoparticle surface modification by amphiphilic polymers in aqueous media: role of polar organic solvents. Journal of Colloid and Interface Science 397: 1-8
Polovinkin, V.; Balandin, T.; Volkov, O.; Round, E.; Borshchevskiy, V.; Utrobin, P.; von Stetten, D.; Royant, A.; Willbold, D.; Arzumanyan, G.; Chupin, V.; Popot, J-L.; Gordeliy, V. 2014: Nanoparticle surface-enhanced Raman scattering of bacteriorhodopsin stabilized by amphipol A8-35. Journal of Membrane Biology 247(9-10): 971-980
Kim, B.J.; Fredrickson, G.H.; Hawker, C.J.; Kramer, E.J. 2007: Nanoparticle surfactants as a route to bicontinuous block copolymer morphologies. Langmuir 23(14): 7804-7809
Kim, Y-Gun.; Yang, S.Yun. 2010: Nanoparticle syntheses using non-porous and porous polyelectrolyte multilayers for biological applications. Journal of Nanoscience and Nanotechnology 10(10): 6892-6895
Warren, S.C.; Jackson, A.C.; Cater-Cyker, Z.D.; DiSalvo, F.J.; Wiesner, U. 2007: Nanoparticle synthesis via the photochemical polythiol process. Journal of the American Chemical Society 129(33): 10072-10073
Mishra, D.; Hubenak, J.R.; Mathur, A.B. 2013: Nanoparticle systems as tools to improve drug delivery and therapeutic efficacy. Journal of Biomedical Materials Research. Part a 101(12): 3646-3660
Kanapathipillai, M.; Brock, A.; Ingber, D.E. 2014: Nanoparticle targeting of anti-cancer drugs that alter intracellular signaling or influence the tumor microenvironment. Advanced Drug Delivery Reviews 79-80: 107-118
Sinha, A.; Shaporev, A.; Nosoudi, N.; Lei, Y.; Vertegel, A.; Lessner, S.; Vyavahare, N. 2014: Nanoparticle targeting to diseased vasculature for imaging and therapy. Nanomedicine: Nanotechnology Biology and Medicine 10(5): 1003-1012
Moulari, B.; Beduneau, A.; Pellequer, Y.; Lamprecht, A. 2013: Nanoparticle targeting to inflamed tissues of the gastrointestinal tract. Current Drug Delivery 10(1): 9-17
Walters, R.; Kraig, R.P.; Medintz, I.; Delehanty, J.B.; Stewart, M.H.; Susumu, K.; Huston, A.L.; Dawson, P.E.; Dawson, G. 2012: Nanoparticle targeting to neurons in a rat hippocampal slice culture model. Asn Neuro 4(6): 383-392
Alexis, F.; Pridgen, E.M.; Langer, R.; Farokhzad, O.C. 2010: Nanoparticle technologies for cancer therapy. Handbook of Experimental Pharmacology 2010(197): 55-86
Fredolini, C.; Tamburro, D.; Gambara, G.; Lepene, B.S.; Espina, V.; Petricoin, E.F.; Liotta, L.A.; Luchini, A. 2009: Nanoparticle technology: amplifying the effective sensitivity of biomarker detection to create a urine test for hGH. Drug Testing and Analysis 1(9-10): 447-454
Rauwerdink, A.M.; Hansen, E.W.; Weaver, J.B. 2009: Nanoparticle temperature estimation in combined ac and dc magnetic fields. Physics in Medicine and Biology 54(19): L51-L55
Liu, Y.; Medda, R.; Liu, Z.; Galior, K.; Yehl, K.; Spatz, J.P.; Cavalcanti-Adam, E.Ada.; Salaita, K. 2014: Nanoparticle tension probes patterned at the nanoscale: impact of integrin clustering on force transmission. Nano Letters 14(10): 5539-5546
Bender, E. 2011: Nanoparticle theories slowly turn into practice. Cancer Discovery 1(4): 280
Sanna, V.; Sechi, M. 2012: Nanoparticle therapeutics for prostate cancer treatment. Nanomedicine: Nanotechnology Biology and Medicine 8 Suppl. 1: S31-S36
Eifler, A.C.; Thaxton, C.Shad. 2011: Nanoparticle therapeutics: FDA approval, clinical trials, regulatory pathways, and case study. Methods in Molecular Biology 726: 325-338
McNeil, S.E. 2009: Nanoparticle therapeutics: a personal perspective. Wiley Interdisciplinary Reviews. Nanomedicine and Nanobiotechnology 1(3): 264-271
Caricato, A.Paola.; Luches, A.; Rella, R. 2009: Nanoparticle thin films for gas sensors prepared by matrix assisted pulsed laser evaporation. Sensors 9(4): 2682-2696
DeVoll, J.R. 2010: Nanoparticle toxicity. Aviation Space and Environmental Medicine 81(2): 152-153
Astashkina, A.I.; Jones, C.F.; Thiagarajan, G.; Kurtzeborn, K.; Ghandehari, H.; Brooks, B.D.; Grainger, D.W. 2014: Nanoparticle toxicity assessment using an in vitro 3-D kidney organoid culture model. Biomaterials 35(24): 6323-6331
Bergin, I.L.; Witzmann, F.A. 2013: Nanoparticle toxicity by the gastrointestinal route: evidence and knowledge gaps. International Journal of Biomedical Nanoscience and Nanotechnology 3(1-2)
Sayes, C.M.; Reed, K.L.; Warheit, D.B. 2011: Nanoparticle toxicology: measurements of pulmonary hazard effects following exposures to nanoparticles. Methods in Molecular Biology 726: 313-324
Sanchís, J.; Bosch-Orea, C.; Farré, M.; Barceló, Dà. 2015: Nanoparticle tracking analysis characterisation and parts-per-quadrillion determination of fullerenes in river samples from Barcelona catchment area. Analytical and Bioanalytical Chemistry 407(15): 4261-4275
Wright, M. 2012: Nanoparticle tracking analysis for the multiparameter characterization and counting of nanoparticle suspensions. Methods in Molecular Biology 906: 511-524
Soo, C.Y.; Song, Y.; Zheng, Y.; Campbell, E.C.; Riches, A.C.; Gunn-Moore, F.; Powis, S.J. 2012: Nanoparticle tracking analysis monitors microvesicle and exosome secretion from immune cells. Immunology 136(2): 192-197
Fazlollahi, F.; Kim, Y.Ho.; Sipos, A.; Hamm-Alvarez, S.F.; Borok, Z.; Kim, K-Jin.; Crandall, E.D. 2013: Nanoparticle translocation across mouse alveolar epithelial cell monolayers: species-specific mechanisms. Nanomedicine: Nanotechnology Biology and Medicine 9(6): 786-794
da Rocha, E.Lummertz.; Caramori, G.Finoto.; Rambo, C.Renato. 2013: Nanoparticle translocation through a lipid bilayer tuned by surface chemistry. Physical Chemistry Chemical Physics: Pccp 15(7): 2282-2290
Ballou, B.; Andreko, S.K.; Osuna-Highley, E.; McRaven, M.; Catalone, T.; Bruchez, M.P.; Hope, T.J.; Labib, M.E. 2012: Nanoparticle transport from mouse vagina to adjacent lymph nodes. Plos one 7(12): E51995
Lan, W-Jie.; Holden, D.A.; Zhang, B.; White, H.S. 2011: Nanoparticle transport in conical-shaped nanopores. Analytical Chemistry 83(10): 3840-3847
Fowler, R.; Vllasaliu, D.; Trillo, F.Fernández.; Garnett, M.; Alexander, C.; Horsley, H.; Smith, B.; Whitcombe, I.; Eaton, M.; Stolnik, S. 2013: Nanoparticle transport in epithelial cells: pathway switching through bioconjugation. Small 9(19): 3282-3294
Hsu, S-hui.; Ho, T-Tso.; Tseng, T-Chen. 2012: Nanoparticle uptake and gene transfer efficiency for MSCs on chitosan and chitosan-hyaluronan substrates. Biomaterials 33(14): 3639-3650
Geiser, M.; Wigge, C.; Conrad, M.L.; Eigeldinger-Berthou, S.; Künzi, L.; Garn, H.; Renz, H.; Mall, M.A. 2014: Nanoparticle uptake by airway phagocytes after fungal spore challenge in murine allergic asthma and chronic bronchitis. Bmc Pulmonary Medicine 14: 116
Florence, A.T. 2005: Nanoparticle uptake by the oral route: Fulfilling its potential?. Drug Discovery Today. Technologies 2(1): 75-81
Torosean, S.; Flynn, B.; Axelsson, J.; Gunn, J.; Samkoe, K.S.; Hasan, T.; Doyley, M.M.; Pogue, B.W. 2013: Nanoparticle uptake in tumors is mediated by the interplay of vascular and collagen density with interstitial pressure. Nanomedicine: Nanotechnology Biology and Medicine 9(2): 151-158
Ibuki, Y.; Toyooka, T. 2012: Nanoparticle uptake measured by flow cytometry. Methods in Molecular Biology 926: 157-166
Schmid, K.; Danuser, B.; Riediker, M. 2010: Nanoparticle usage and protection measures in the manufacturing industry--a representative survey. Journal of Occupational and Environmental Hygiene 7(4): 224-232
Zhao, L.; Seth, A.; Wibowo, N.; Zhao, C-Xia.; Mitter, N.; Yu, C.; Middelberg, A.P.J. 2014: Nanoparticle vaccines. Vaccine 32(3): 327-337
Adair, B.M. 2009: Nanoparticle vaccines against respiratory viruses. Wiley Interdisciplinary Reviews. Nanomedicine and Nanobiotechnology 1(4): 405-414
Jorquera, P.A.; Choi, Y.; Oakley, K.E.; Powell, T.J.; Boyd, J.G.; Palath, N.; Haynes, L.M.; Anderson, L.J.; Tripp, R.A. 2013: Nanoparticle vaccines encompassing the respiratory syncytial virus (RSV) G protein CX3C chemokine motif induce robust immunity protecting from challenge and disease. Plos one 8(9): E74905
Isenbügel, K.; Ritter, H.; Branscheid, R.; Kolb, U. 2010: Nanoparticle vesicles through self assembly of cyclodextrin- and adamantyl-modified silica. Macromolecular Rapid Communications 31(24): 2121-2126
Doane, T.L.; Chuang, C-Hung.; Hill, R.J.; Burda, C. 2012: Nanoparticle ζ -potentials. Accounts of Chemical Research 45(3): 317-326
Eldridge, J.A.; Willmott, G.R.; Anderson, W.; Vogel, R. 2014: Nanoparticle ζ-potential measurements using tunable resistive pulse sensing with variable pressure. Journal of Colloid and Interface Science 429: 45-52
Leong, K.W.; Sung, H-Wen. 2013: Nanoparticle- and biomaterials-mediated oral delivery for drug, gene, and immunotherapy. Advanced Drug Delivery Reviews 65(6): 757-758
Emerich, D.F.; Orive, G. 2010: Nanoparticle-Based Technologies for Treating and Imaging Brain Tumors. Current Cancer Drug Targets 2010
Leung, K.Cham-Fai.; Lee, S-Fung.; Wong, C-Hin.; Chak, C-Pong.; Lai, J.M.Y.; Zhu, X-Ming.; Wang, Y-Xiang.J.; Sham, K.W.Y.; Cheng, C.H.K. 2013: Nanoparticle-DNA-polymer composites for hepatocellular carcinoma cell labeling, sensing, and magnetic resonance imaging. Methods 64(3): 315-321
Moyano, D.F.; Rotello, V.M. 2013: Nanoparticle-GFP "chemical nose" sensor for cancer cell identification. Methods in Molecular Biology 991: 1-8
Estévez, M.Carmen.; Huang, Y-Fen.; Kang, H.; O'Donoghue, M.B.; Bamrungsap, S.; Yan, J.; Chen, X.; Tan, W. 2010: Nanoparticle-aptamer conjugates for cancer cell targeting and detection. Methods in Molecular Biology 624: 235-248
Ho, Y-Chi.; Tseng, M-Chun.; Lu, Y-Wei.; Lin, C-Cheng.; Chen, Y-Ju.; Fuh, M-Ren. 2011: Nanoparticle-assisted MALDI-TOF MS combined with seed-layer surface preparation for quantification of small molecules. Analytica Chimica Acta 697(1-2): 1-7
Hu, C-Ming.Jack.; Aryal, S.; Zhang, L. 2010: Nanoparticle-assisted combination therapies for effective cancer treatment. Therapeutic Delivery 1(2): 323-334
Taira, S.; Sugiura, Y.; Moritake, S.; Shimma, S.; Ichiyanagi, Y.; Setou, M. 2008: Nanoparticle-assisted laser desorption/ionization based mass imaging with cellular resolution. Analytical Chemistry 80(12): 4761-4766
Waki, M.; Sugiyama, E.; Kondo, T.; Sano, K.; Setou, M. 2015: Nanoparticle-assisted laser desorption/ionization for metabolite imaging. Methods in Molecular Biology 1203: 159-173
Sivan, Y.; Sonnefraud, Y.; Kéna-Cohen, Séphane.; Pendry, J.B.; Maier, S.A. 2012: Nanoparticle-assisted stimulated-emission-depletion nanoscopy. Acs Nano 6(6): 5291-5296
Rajala, A.; Wang, Y.; Zhu, Y.; Ranjo-Bishop, M.; Ma, J-Xing.; Mao, C.; Rajala, R.V.S. 2014: Nanoparticle-assisted targeted delivery of eye-specific genes to eyes significantly improves the vision of blind mice in vivo. Nano Letters 14(9): 5257-5263
Betzer, O.; Shwartz, A.; Motiei, M.; Kazimirsky, G.; Gispan, I.; Damti, E.; Brodie, C.; Yadid, G.; Popovtzer, R. 2014: Nanoparticle-based CT imaging technique for longitudinal and quantitative stem cell tracking within the brain: application in neuropsychiatric disorders. Acs Nano 8(9): 9274-9285
Xu, C.; Zhao, W. 2013: Nanoparticle-based Monitoring of Stem Cell Therapy. Theranostics 3(8): 616-617
Guo, Y.; Kumar, M.; Zhang, P. 2007: Nanoparticle-based Photosensitizers Under CW Infrared Excitation. Chemistry of Materials: a Publication of the American Chemical Society 19(25): 6071-6072
Yu, F.; Wang, J.; Dou, J.; Yang, H.; He, X.; Xu, W.; Zhang, Y.; Hu, K.; Gu, N. 2012: Nanoparticle-based adjuvant for enhanced protective efficacy of DNA vaccine Ag85A-ESAT-6-IL-21 against Mycobacterium tuberculosis infection. Nanomedicine: Nanotechnology Biology and Medicine 8(8): 1337-1344
Wang, Z.; Liu, H.; Yang, S.Hye.; Wang, T.; Liu, C.; Cao, Y.Charles. 2012: Nanoparticle-based artificial RNA silencing machinery for antiviral therapy. Proceedings of the National Academy of Sciences of the United States of America 109(31): 12387-12392
Zougagh, M.; Salghi, R.; Dhair, S.; Rios, A. 2011: Nanoparticle-based assay for the detection of virgin argan oil adulteration and its rapid quality evaluation. Analytical and Bioanalytical Chemistry 399(7): 2395-2405
Yin, H-qiong.; Jia, M-xian.; Shi, L-jun.; Yang, S.; Zhang, L-ying.; Zhang, Q-mo.; Wang, S-qi.; Li, G.; Zhang, J-gang. 2011: Nanoparticle-based bio-barcode assay for the detection of bluetongue virus. Journal of Virological Methods 178(1-2): 225-228
Thaxton, C.Shad.; Elghanian, R.; Thomas, A.D.; Stoeva, S.I.; Lee, J-Seung.; Smith, N.D.; Schaeffer, A.J.; Klocker, H.; Horninger, W.; Bartsch, G.; Mirkin, C.A. 2009: Nanoparticle-based bio-barcode assay redefines "undetectable" PSA and biochemical recurrence after radical prostatectomy. Proceedings of the National Academy of Sciences of the United States of America 106(44): 18437-18442
Shi, H.; He, X.; Yuan, Y.; Wang, K.; Liu, D. 2010: Nanoparticle-based biocompatible and long-life marker for lysosome labeling and tracking. Analytical Chemistry 82(6): 2213-2220
Yu, X.; Pishko, M.V. 2011: Nanoparticle-based biocompatible and targeted drug delivery: characterization and in vitro studies. Biomacromolecules 12(9): 3205-3212
Cliffel, D.E.; Turner, B.N.; Huffman, B.J. 2009: Nanoparticle-based biologic mimetics. Wiley Interdisciplinary Reviews. Nanomedicine and Nanobiotechnology 1(1): 47-59
Kamikawa, T.L.; Mikolajczyk, M.G.; Kennedy, M.; Zhang, P.; Wang, W.; Scott, D.E.; Alocilja, E.C. 2010: Nanoparticle-based biosensor for the detection of emerging pandemic influenza strains. Biosensors and Bioelectronics 26(4): 1346-1352
Nilsson, C.; Harwigsson, I.; Becker, K.; Kutter, Jörg.P.; Birnbaum, S.; Nilsson, S. 2010: Nanoparticle-based capillary electroseparation of proteins in polymer capillaries under physiological conditions. Electrophoresis 31(3): 459-464
Raudino, G.; Caffo, M.; Caruso, G.; Alafaci, C.; Tomasello, F. 2011: Nanoparticle-based cerebral drug-delivery systems and antiangiogenic approach in gliomas treatment. Recent Patents on Nanotechnology 5(3): 239-244
Niebel, W.; Walkenbach, K.; Béduneau, A.; Pellequer, Y.; Lamprecht, A. 2012: Nanoparticle-based clodronate delivery mitigates murine experimental colitis. Journal of Controlled Release: Official Journal of the Controlled Release Society 160(3): 659-665
Pyykkö, I.; Zou, J.; Zhang, W.; Zhang, Y. 2011: Nanoparticle-based delivery for the treatment of inner ear disorders. Current Opinion in Otolaryngology and Head and Neck Surgery 19(5): 388-396
Miele, E.; Spinelli, G.Paolo.; Miele, E.; Di Fabrizio, E.; Ferretti, E.; Tomao, S.; Gulino, A. 2012: Nanoparticle-based delivery of small interfering RNA: challenges for cancer therapy. International Journal of Nanomedicine 7: 3637-3657
Elbehery, A.H.A.; Azzazy, H.M.E. 2014: Nanoparticle-based detection of cancer-associated RNA. Wiley Interdisciplinary Reviews. Nanomedicine and Nanobiotechnology 6(4): 384-397
Stübiger, G.; Wuczkowski, M.; Bicker, W.; Belgacem, O. 2014: Nanoparticle-based detection of oxidized phospholipids by MALDI mass spectrometry: nano-MALDI approach. Analytical Chemistry 86(13): 6401-6409
Gomes, M.João.; Neves, Jé.das.; Sarmento, B. 2014: Nanoparticle-based drug delivery to improve the efficacy of antiretroviral therapy in the central nervous system. International Journal of Nanomedicine 9: 1757-1769
Ensign, L.M.; Cone, R.; Hanes, J. 2014: Nanoparticle-based drug delivery to the vagina: a review. Journal of Controlled Release: Official Journal of the Controlled Release Society 190: 500-514
Siangproh, W.; Dungchai, W.; Rattanarat, P.; Chailapakul, O. 2011: Nanoparticle-based electrochemical detection in conventional and miniaturized systems and their bioanalytical applications: a review. Analytica Chimica Acta 690(1): 10-25
Liu, G.; Wang, J.; Barry, R.; Petersen, C.; Timchalk, C.; Gassman, P.L.; Lin, Y. 2008: Nanoparticle-based electrochemical immunosensor for the detection of phosphorylated acetylcholinesterase: an exposure biomarker of organophosphate pesticides and nerve agents. Chemistry 14(32): 9951-9959
Shen, W.; Tian, D.; Cui, H.; Yang, D.; Bian, Z. 2011: Nanoparticle-based electrochemiluminescence immunosensor with enhanced sensitivity for cardiac troponin I using N-(aminobutyl)-N-(ethylisoluminol)-functionalized gold nanoparticles as labels. Biosensors and Bioelectronics 27(1): 18-24
Pagonis, T.C.; Chen, J.; Fontana, C.Raquel.; Devalapally, H.; Ruggiero, K.; Song, X.; Foschi, F.; Dunham, J.; Skobe, Z.; Yamazaki, H.; Kent, R.; Tanner, A.C.R.; Amiji, M.M.; Soukos, N.S. 2010: Nanoparticle-based endodontic antimicrobial photodynamic therapy. Journal of Endodontics 36(2): 322-328
Sawyer, A.J.; Kyriakides, T.R. 2013: Nanoparticle-based evaluation of blood-brain barrier leakage during the foreign body response. Journal of Neural Engineering 10(1): 016013
Arakelyan, A.; Fitzgerald, W.; Margolis, L.; Grivel, J-Charles. 2013: Nanoparticle-based flow virometry for the analysis of individual virions. Journal of Clinical Investigation 123(9): 3716-3727
Tang, S.; Hewlett, I. 2010: Nanoparticle-based immunoassays for sensitive and early detection of HIV-1 capsid (p24) antigen. Journal of Infectious Diseases 201 Suppl. 1: S59-S64
Tang, D.; Cui, Y.; Chen, G. 2013: Nanoparticle-based immunoassays in the biomedical field. Analyst 138(4): 981-990
Zhang, W.; Ge, X.; Tang, Y.; Du, D.; Liu, D.; Lin, Y. 2013: Nanoparticle-based immunochromatographic test strip with fluorescent detector for quantification of phosphorylated acetylcholinesterase: an exposure biomarker of organophosphorus agents. Analyst 138(18): 5431-5436
Sudheesh, M.S.; Vyas, S.P.; Kohli, D.V. 2011: Nanoparticle-based immunopotentiation via tetanus toxoid-loaded gelatin and aminated gelatin nanoparticles. Drug Delivery 18(5): 320-330
Du, D.; Chen, A.; Xie, Y.; Zhang, A.; Lin, Y. 2011: Nanoparticle-based immunosensor with apoferritin templated metallic phosphate label for quantification of phosphorylated acetylcholinesterase. Biosensors and Bioelectronics 26(9): 3857-3863
Oh, D.Ju.; Kim, K.Mi.; Ahn, K.Han. 2011: Nanoparticle-based indicator-displacement assay for pyrophosphate. Chemistry An Asian Journal 6(8): 2034-2039
Chiang, C-Kang.; Chen, W-Tsen.; Chang, H-Tsung. 2011: Nanoparticle-based mass spectrometry for the analysis of biomolecules. Chemical Society Reviews 40(3): 1269-1281
Fothergill, J.; Li, M.; Davis, S.A.; Cunningham, J.A.; Mann, S. 2014: Nanoparticle-based membrane assembly and silicification in coacervate microdroplets as a route to complex colloidosomes. Langmuir 30(48): 14591-14596
Lasarte-Aragonés, G.; Lucena, R.; Cárdenas, S.; Valcárcel, M. 2011: Nanoparticle-based microextraction techniques in bioanalysis. Bioanalysis 3(22): 2533-2548
Xu, C.; Mu, L.; Roes, I.; Miranda-Nieves, D.; Nahrendorf, M.; Ankrum, J.A.; Zhao, W.; Karp, J.M. 2011: Nanoparticle-based monitoring of cell therapy. Nanotechnology 22(49): 494001
Tang, S.; Guo, Y.; Xiong, C.; Liu, S.; Liu, X.; Jiang, S. 2014: Nanoparticle-based monoliths for chromatographic separations. Analyst 139(17): 4103-4117
Colodrero, S.; Ocaña, M.; Míguez, H. 2008: Nanoparticle-based one-dimensional photonic crystals. Langmuir 24(9): 4430-4434
Ogawara, K-ichi.; Yoshizawa, Y.; Un, K.; Araki, T.; Kimura, T.; Higaki, K. 2013: Nanoparticle-based passive drug targeting to tumors: considerations and implications for optimization. Biological and Pharmaceutical Bulletin 36(5): 698-702
Stanwix, H. 2013: Nanoparticle-based paste could have promise in bone defect repair. Nanomedicine 8(4): 517-518
Blanco, E. 2014: Nanoparticle-based polychemotherapy: optimizing drug synergy for efficacious cancer treatment. Therapeutic Delivery 5(7): 737-739
Gao, Z.; Tang, D.; Xu, M.; Chen, G.; Yang, H. 2014: Nanoparticle-based pseudo hapten for target-responsive cargo release from a magnetic mesoporous silica nanocontainer. Chemical Communications 50(47): 6256-6258
Tang, D.; Su, B.; Tang, J.; Ren, J.; Chen, G. 2010: Nanoparticle-based sandwich electrochemical immunoassay for carbohydrate antigen 125 with signal enhancement using enzyme-coated nanometer-sized enzyme-doped silica beads. Analytical Chemistry 82(4): 1527-1534
Hu, C.; Yue, W.; Yang, M. 2013: Nanoparticle-based signal generation and amplification in microfluidic devices for bioanalysis. Analyst 138(22): 6709-6720
Kowalczyk, B.; Byrska, M.; Mahmud, G.; Huda, S.; Kandere-Grzybowska, K.; Grzybowski, B.A. 2009: Nanoparticle-based solution deposition of gold films supporting bioresistant SAMs. Langmuir 25(4): 1905-1907
Liu, Y.; Su, G.; Zhang, B.; Jiang, G.; Yan, B. 2011: Nanoparticle-based strategies for detection and remediation of environmental pollutants. Analyst 136(5): 872-877
Cheng, H-Wen.; Huan, S-Yan.; Yu, R-Qin. 2012: Nanoparticle-based substrates for surface-enhanced Raman scattering detection of bacterial spores. Analyst 137(16): 3601-3608
Zhu, D.; Liu, F.; Ma, L.; Liu, D.; Wang, Z. 2013: Nanoparticle-based systems for T(1)-weighted magnetic resonance imaging contrast agents. International Journal of Molecular Sciences 14(5): 10591-10607
Fang, C.; Zhang, M. 2010: Nanoparticle-based theragnostics: Integrating diagnostic and therapeutic potentials in nanomedicine. Journal of Controlled Release: Official Journal of the Controlled Release Society 146(1): 2-5
Xie, J.; Lee, S.; Chen, X. 2010: Nanoparticle-based theranostic agents. Advanced Drug Delivery Reviews 62(11): 1064-1079
Theiss, A.L.; Laroui, H.; Obertone, T.S.; Chowdhury, I.; Thompson, W.E.; Merlin, D.; Sitaraman, S.V. 2011: Nanoparticle-based therapeutic delivery of prohibitin to the colonic epithelial cells ameliorates acute murine colitis. Inflammatory Bowel Diseases 17(5): 1163-1176
Da Silva, A.L.; Santos, R.S.; Xisto, Débora.G.; Alonso, S.del.V.; Morales, M.M.; Rocco, P.R.M. 2013: Nanoparticle-based therapy for respiratory diseases. Anais da Academia Brasileira de Ciencias 85(1): 137-146
Babar, I.A.; Cheng, C.J.; Booth, C.J.; Liang, X.; Weidhaas, J.B.; Saltzman, W.Mark.; Slack, F.J. 2012: Nanoparticle-based therapy in an in vivo microRNA-155 (miR-155)-dependent mouse model of lymphoma. Proceedings of the National Academy of Sciences of the United States of America 109(26): E1695-E1704
Wang, L.; Wang, Y.; Li, Z. 2013: Nanoparticle-based tumor theranostics with molecular imaging. Current Pharmaceutical Biotechnology 14(7): 683-692
Park, Y-Min.; Lee, S.Jun.; Kim, Y.Seob.; Lee, M.Hee.; Cha, G.Sun.; Jung, I.Duk.; Kang, T.Heung.; Han, H.Dong. 2013: Nanoparticle-based vaccine delivery for cancer immunotherapy. Immune Network 13(5): 177-183
Mallipeddi, R.; Rohan, L.Cencia. 2010: Nanoparticle-based vaginal drug delivery systems for HIV prevention. Expert Opinion on Drug Delivery 7(1): 37-48
Hong, M.; Zhou, X.; Lu, Z.; Zhu, J. 2009: Nanoparticle-based, fluorous-tag-driven DNA detection. Angewandte Chemie 48(50): 9503-9506
Li, W.; Qiang, W.; Li, J.; Li, H.; Dong, Y.; Zhao, Y.; Xu, D. 2014: Nanoparticle-catalyzed reductive bleaching for fabricating turn-off and enzyme-free amplified colorimetric bioassays. Biosensors and Bioelectronics 51: 219-224
Harush-Frenkel, O.; Altschuler, Y.; Benita, S. 2008: Nanoparticle-cell interactions: drug delivery implications. Critical Reviews in Therapeutic Drug Carrier Systems 25(6): 485-544
Fleischer, C.C.; Payne, C.K. 2014: Nanoparticle-cell interactions: molecular structure of the protein corona and cellular outcomes. Accounts of Chemical Research 47(8): 2651-2659
Liu, G.; Men, P.; Kudo, W.; Perry, G.; Smith, M.A. 2009: Nanoparticle-chelator conjugates as inhibitors of amyloid-beta aggregation and neurotoxicity: a novel therapeutic approach for Alzheimer disease. Neuroscience Letters 455(3): 187-190
Lu, G.; Li, H.; Zhang, H. 2011: Nanoparticle-coated PDMS elastomers for enhancement of Raman scattering. Chemical Communications 47(30): 8560-8562
Chen, C-Pin.; Lin, P-Hsuan.; Chen, L-Yi.; Ke, M-Yung.; Cheng, Y-Wei.; Huang, J. 2009: Nanoparticle-coated n-ZnO/p-Si photodiodes with improved photoresponsivities and acceptance angles for potential solar cell applications. Nanotechnology 20(24): 245204
Fang, J.; Kelarakis, A.; Lin, Y-Wei.; Kang, C-Yun.; Yang, M-Huan.; Cheng, C-Liang.; Wang, Y.; Giannelis, E.P.; Tsai, L-Duan. 2011: Nanoparticle-coated separators for lithium-ion batteries with advanced electrochemical performance. Physical Chemistry Chemical Physics: Pccp 13(32): 14457-14461
Biswas, A.; Gomes, A.; Sengupta, J.; Datta, P.; Singha, S.; Dasgupta, A.Kr.; Gomes, A. 2012: Nanoparticle-conjugated animal venom-toxins and their possible therapeutic potential. Journal of Venom Research 3: 15-21
Dotzauer, D.M.; Bhattacharjee, S.; Wen, Y.; Bruening, M.L. 2009: Nanoparticle-containing membranes for the catalytic reduction of nitroaromatic compounds. Langmuir 25(3): 1865-1871
Sinkovits, D.W.; Luijten, E. 2012: Nanoparticle-controlled aggregation of colloidal tetrapods. Nano Letters 12(4): 1743-1748
Ko, H.; Tsukruk, V.V. 2008: Nanoparticle-decorated nanocanals for surface-enhanced Raman scattering. Small 4(11): 1980-1984
Stone, G.W.; Barzee, S.; Snarsky, V.; Santucci, C.; Tran, B.; Langer, R.; Zugates, G.T.; Anderson, D.G.; Kornbluth, R.S. 2009: Nanoparticle-delivered multimeric soluble CD40L DNA combined with Toll-Like Receptor agonists as a treatment for melanoma. Plos one 4(10): E7334
Men, K.; Duan, X.; Wei, X.Wei.; Gou, M.Ling.; Huang, M.Juan.; Chen, L.Juan.; Qian, Z.Yong.; Wei, Y.Quan. 2014: Nanoparticle-delivered quercetin for cancer therapy. Anti-Cancer Agents in Medicinal Chemistry 14(6): 826-832
Huang, Y-Hung.; Zugates, G.T.; Peng, W.; Holtz, D.; Dunton, C.; Green, J.J.; Hossain, N.; Chernick, M.R.; Padera, R.F.; Langer, R.; Anderson, D.G.; Sawicki, J.A. 2009: Nanoparticle-delivered suicide gene therapy effectively reduces ovarian tumor burden in mice. Cancer Research 69(15): 6184-6191
Xu, Z.; Wang, Y.; Zhang, L.; Huang, L. 2014: Nanoparticle-delivered transforming growth factor-β siRNA enhances vaccination against advanced melanoma by modifying tumor microenvironment. Acs Nano 8(4): 3636-3645
Liao, L. 2014: Nanoparticle-dependent labeling of mesenchymal stem cell. Journal of Nanoscience and Nanotechnology 14(1): 958-968
Kamps, A.C.; Sanchez-Gaytan, B.L.; Hickey, R.J.; Clarke, N.; Fryd, M.; Park, S-Jung. 2010: Nanoparticle-directed self-assembly of amphiphilic block copolymers. Langmuir 26(17): 14345-14350
Zeng, X.; Morgenstern, R.; Nyström, A.M. 2014: Nanoparticle-directed sub-cellular localization of doxorubicin and the sensitization breast cancer cells by circumventing GST-mediated drug resistance. Biomaterials 35(4): 1227-1239
Kuroda, S-Ichi.; Yamada, T.; Tanizawa, K. 2003: Nanoparticle-directed tissue-specific delivery system for genes and drugs. Discovery Medicine 3(18): 56-57
Yoshida, H.; Kawamoto, K.; Kubo, H.; Tsuda, T.; Fujii, A.; Kuwabata, S.; Ozaki, M. 2010: Nanoparticle-dispersed liquid crystals fabricated by sputter doping. Advanced Materials 22(5): 622-626
Hwang, S-June.; Jeng, S-Chang.; Hsieh, I-Ming. 2010: Nanoparticle-doped polyimide for controlling the pretilt angle of liquid crystals devices. Optics Express 18(16): 16507-16512
Lin, Y.; Daga, V.K.; Anderson, E.R.; Gido, S.P.; Watkins, J.J. 2011: Nanoparticle-driven assembly of block copolymers: a simple route to ordered hybrid materials. Journal of the American Chemical Society 133(17): 6513-6516
Bharati, A.; Xavier, P.; Kar, G.Prasanna.; Madras, G.; Bose, S. 2014: Nanoparticle-driven intermolecular cooperativity and miscibility in polystyrene/poly(vinyl methyl ether) blends. Journal of Physical Chemistry. B 118(8): 2214-2225
Zhang, R.; Singh, G.; Dang, A.; Dai, L.; Bockstaller, M.R.; Akgun, B.; Satija, S.; Karim, A. 2013: Nanoparticle-driven orientation transition and soft-shear alignment in diblock copolymer films via dynamic thermal gradient field. Macromolecular Rapid Communications 34(20): 1642-1647
Zhou, Y-Ge.; Rees, N.V.; Compton, R.G. 2011: Nanoparticle-electrode collision processes: the underpotential deposition of thallium on silver nanoparticles in aqueous solution. Chemphyschem: a European Journal of Chemical Physics and Physical Chemistry 12(11): 2085-2087
Haddou, B.; Rees, N.V.; Compton, R.G. 2012: Nanoparticle-electrode impacts: the oxidation of copper nanoparticles has slow kinetics. Physical Chemistry Chemical Physics: Pccp 14(39): 13612-13617
Bungart, B.L.; Dong, L.; Sobek, D.; Sun, G.Y.; Yao, G.; Lee, J.C-M. 2014: Nanoparticle-emitted light attenuates amyloid-β-induced superoxide and inflammation in astrocytes. Nanomedicine: Nanotechnology Biology and Medicine 10(1): 15-17
Feng, H-Ping.; Paudel, T.; Yu, B.; Chen, S.; Ren, Z.Feng.; Chen, G. 2011: Nanoparticle-enabled selective electrodeposition. Advanced Materials 23(21): 2454-2459
Oh, S.Jae.; Kang, J.; Maeng, I.; Suh, J-Suck.; Huh, Y-Min.; Haam, S.; Son, J-Hiuk. 2009: Nanoparticle-enabled terahertz imaging for cancer diagnosis. Optics Express 17(5): 3469-3475
Lin, Q.; Jin, C.S.; Huang, H.; Ding, L.; Zhang, Z.; Chen, J.; Zheng, G. 2014: Nanoparticle-enabled, image-guided treatment planning of target specific RNAi therapeutics in an orthotopic prostate cancer model. Small 10(15): 3072-3082
Seneviratne, C.Jayampath.; Leung, K.Cham-Fai.; Wong, C-Hin.; Lee, S-Fung.; Li, X.; Leung, P.Chung.; Lau, C.Bik.San.; Wat, E.; Jin, L. 2014: Nanoparticle-encapsulated chlorhexidine against oral bacterial biofilms. Plos one 9(8): E103234
Hoffmann, K.; Behnke, T.; Grabolle, M.; Resch-Genger, U. 2014: Nanoparticle-encapsulated vis- and NIR-emissive fluorophores with different fluorescence decay kinetics for lifetime multiplexing. Analytical and Bioanalytical Chemistry 406(14): 3315-3322
MacDonald, S.M.; Harisinghani, M.G.; Katkar, A.; Napolitano, B.; Wolfgang, J.; Taghian, A.G. 2010: Nanoparticle-enhanced MRI to evaluate radiation delivery to the regional lymphatics for patients with breast cancer. International Journal of Radiation Oncology Biology Physics 77(4): 1098-1104
Harisinghani, M. 2008: Nanoparticle-enhanced MRI: are we there yet?. Lancet. Oncology 9(9): 814-815
Wark, A.W.; Lee, H.Jin.; Qavi, A.J.; Corn, R.M. 2007: Nanoparticle-enhanced diffraction gratings for ultrasensitive surface plasmon biosensing. Analytical Chemistry 79(17): 6697-6701
Liu, R.; Jin, C.; Song, F.; Liu, J. 2013: Nanoparticle-enhanced electrical impedance detection and its potential significance in image tomography. International Journal of Nanomedicine 8: 33-38
Wolfbeis, O.S. 2009: Nanoparticle-enhanced fluorescence imaging of latent fingerprints reveals drug abuse. Angewandte Chemie 48(13): 2268-2269
Paviolo, C.; Thompson, A.C.; Yong, J.; Brown, W.G.A.; Stoddart, P.R. 2014: Nanoparticle-enhanced infrared neural stimulation. Journal of Neural Engineering 11(6): 065002
De Giacomo, A.; Gaudiuso, R.; Koral, C.; Dell'Aglio, M.; De Pascale, O. 2013: Nanoparticle-enhanced laser-induced breakdown spectroscopy of metallic samples. Analytical Chemistry 85(21): 10180-10187
Singh, K.V.; Bhura, D.K.; Nandamuri, G.; Whited, A.M.; Evans, D.; King, J.; Solanki, R. 2011: Nanoparticle-enhanced sensitivity of a nanogap-interdigitated electrode array impedimetric biosensor. Langmuir 27(22): 13931-13939
Kwon, M.Jeong.; Lee, J.; Wark, A.W.; Lee, H.Jin. 2012: Nanoparticle-enhanced surface plasmon resonance detection of proteins at attomolar concentrations: comparing different nanoparticle shapes and sizes. Analytical Chemistry 84(3): 1702-1707
Mendoza-Anaya, D.; Angeles, C.; Salas, P.; Rodríguez, R.; Castaño, V.M. 2003: Nanoparticle-enhanced thermoluminescence in silica gels. Nanotechnology 14(12): L19-L22
Sander, J.S.; Studart, Aé.R. 2013: Nanoparticle-filled complex colloidosomes for tunable cargo release. Langmuir 29(49): 15168-15173
Lee, H.; Jang, Y.; Seo, J.; Nam, J-Min.; Char, K. 2011: Nanoparticle-functionalized polymer platform for controlling metastatic cancer cell adhesion, shape, and motility. Acs Nano 5(7): 5444-5456
Liu, J.; White, I.; DeVoe, D.L. 2011: Nanoparticle-functionalized porous polymer monolith detection elements for surface-enhanced Raman scattering. Analytical Chemistry 83(6): 2119-2124
Kraus-Ophir, S.; Witt, J.; Wittstock, G.; Mandler, D. 2014: Nanoparticle-imprinted polymers for size-selective recognition of nanoparticles. Angewandte Chemie 53(1): 294-298
Thubagere, A.; Reinhard, Börn.M. 2010: Nanoparticle-induced apoptosis propagates through hydrogen-peroxide-mediated bystander killing: insights from a human intestinal epithelium in vitro model. Acs Nano 4(7): 3611-3622
Chen, M.; von Mikecz, A. 2009: Nanoparticle-induced cell culture models for degenerative protein aggregation diseases. Inhalation Toxicology 21 Suppl. 1: 110-114
Singh, N.K.; Das Purkayastha, B.; Roy, J.K.; Banik, R.M.; Yashpal, M.; Singh, G.; Malik, S.; Maiti, P. 2010: Nanoparticle-induced controlled biodegradation and its mechanism in poly(epsilon-caprolactone). Acs Applied Materials and Interfaces 2(1): 69-81
Sundararajan, S.Priya.; Grady, N.K.; Mirin, N.; Halas, N.J. 2008: Nanoparticle-induced enhancement and suppression of photocurrent in a silicon photodiode. Nano Letters 8(2): 624-630
Zhu, M.; Tian, X.; Song, X.; Li, Y.; Tian, Y.; Zhao, Y.; Nie, G. 2012: Nanoparticle-induced exosomes target antigen-presenting cells to initiate Th1-type immune activation. Small 8(18): 2841-2848
Wagner, S.C.; Roskamp, M.; Pallerla, M.; Araghi, R.Rezaei.; Schlecht, S.; Koksch, B. 2010: Nanoparticle-induced folding and fibril formation of coiled-coil-based model peptides. Small 6(12): 1321-1328
Cai, Y.; Ho, J.C.W.; Batabyal, S.K.; Liu, W.; Sun, Y.; Mhaisalkar, S.G.; Wong, L.H. 2013: Nanoparticle-induced grain growth of carbon-free solution-processed CuIn(S,Se)2 solar cell with 6% efficiency. Acs Applied Materials and Interfaces 5(5): 1533-1537
Das, S.; Bhattacharya, A.; Debnath, N.; Datta, A.; Goswami, A. 2013: Nanoparticle-induced morphological transition of Bombyx mori nucleopolyhedrovirus: a novel method to treat silkworm grasserie disease. Applied Microbiology and Biotechnology 97(13): 6019-6030
Gao, N.; Yan, Y.; Chen, X.; Mee, D.J. 2012: Nanoparticle-induced morphology and hydrophilicity of structured surfaces. Langmuir 28(33): 12256-12265
Pogodin, S.; Werner, M.; Sommer, J-Uwe.; Baulin, V.A. 2012: Nanoparticle-induced permeability of lipid membranes. Acs Nano 6(12): 10555-10561
Hackenberg, S.; Scherzed, A.; Gohla, A.; Technau, A.; Froelich, K.; Ginzkey, C.; Koehler, C.; Burghartz, M.; Hagen, R.; Kleinsasser, N. 2014: Nanoparticle-induced photocatalytic head and neck squamous cell carcinoma cell death is associated with autophagy. Nanomedicine 9(1): 21-33
Chumbimuni-Torres, K.Y.; Wang, J. 2009: Nanoparticle-induced potentiometric biosensing of NADH at copper ion-selective electrodes. Analyst 134(8): 1614-1617
Li, J.Jia'en.; Muralikrishnan, S.; Ng, C-Teng.; Yung, L-Yue.Lanry.; Bay, B-Huat. 2010: Nanoparticle-induced pulmonary toxicity. Experimental Biology and Medicine 235(9): 1025-1033
Kim, W.Sun.; Jeong, Y-Cheol.; Park, J-Ki. 2006: Nanoparticle-induced refractive index modulation of organic-inorganic hybrid photopolymer. Optics Express 14(20): 8967-8973
Wang, B.; Zhang, L.; Bae, S.Chul.; Granick, S. 2008: Nanoparticle-induced surface reconstruction of phospholipid membranes. Proceedings of the National Academy of Sciences of the United States of America 105(47): 18171-18175
Yu, S-Huei.; Tang, D-Wei.; Hsieh, H-Ying.; Wu, W-Shin.; Lin, B-Xian.; Chuang, E-Yuan.; Sung, H-Wen.; Mi, F-Long. 2013: Nanoparticle-induced tight-junction opening for the transport of an anti-angiogenic sulfated polysaccharide across Caco-2 cell monolayers. Acta Biomaterialia 9(7): 7449-7459
Trček, M.; Cordoyiannis, G.; Tzitzios, V.; Kralj, S.; Nounesis, G.; Lelidis, I.; Kutnjak, Z. 2014: Nanoparticle-induced twist-grain boundary phase. Physical Review. E Statistical Nonlinear and Soft Matter Physics 90(3): 032501
Agemy, L.; Sugahara, K.N.; Kotamraju, V.Ramana.; Gujraty, K.; Girard, O.M.; Kono, Y.; Mattrey, R.F.; Park, J-Ho.; Sailor, M.J.; Jimenez, A.I.; Cativiela, C.; Zanuy, D.; Sayago, F.J.; Aleman, C.; Nussinov, R.; Ruoslahti, E. 2010: Nanoparticle-induced vascular blockade in human prostate cancer. Blood 116(15): 2847-2856
Karatairi, E.; Rozic, B.; Kutnjak, Z.; Tzitzios, V.; Nounesis, G.; Cordoyiannis, G.; Thoen, J.; Glorieux, C.; Kralj, S. 2010: Nanoparticle-induced widening of the temperature range of liquid-crystalline blue phases. Physical Review. E Statistical Nonlinear and Soft Matter Physics 81(4 Pt 1): 041703
Kim, H.; Csaky, K.G. 2010: Nanoparticle-integrin antagonist C16Y peptide treatment of choroidal neovascularization in rats. Journal of Controlled Release: Official Journal of the Controlled Release Society 142(2): 286-293
El-Sadik, A.O.; El-Ansary, A.; Sabry, S.M. 2010: Nanoparticle-labeled stem cells: a novel therapeutic vehicle. Clinical Pharmacology: Advances and Applications 2: 9-16
Kim, J.; Nakanishi, H.; Pollanen, J.; Smoukov, S.; Halperin, W.P.; Grzybowski, B.A. 2011: Nanoparticle-loaded aerogels and layered aerogels cast from sol-gel mixtures. Small 7(18): 2568-2572
Chen, Q.; Wang, J.; Shao, L. 2013: Nanoparticle-loaded cylindrical micelles from nanopore extrusion of block copolymer spherical micelles. Macromolecular Rapid Communications 34(23-24): 1850-1855
Krack, M.; Hohenberg, H.; Kornowski, A.; Lindner, P.; Weller, H.; Förster, S. 2008: Nanoparticle-loaded magnetophoretic vesicles. Journal of the American Chemical Society 130(23): 7315-7320
Huang, Y-Fen.; Liu, H.; Xiong, X.; Chen, Y.; Tan, W. 2009: Nanoparticle-mediated IgE-receptor aggregation and signaling in RBL mast cells. Journal of the American Chemical Society 131(47): 17328-17334
Mohamadi, R.M.; Besant, J.D.; Mepham, A.; Green, B.; Mahmoudian, L.; Gibbs, T.; Ivanov, I.; Malvea, A.; Stojcic, J.; Allan, A.L.; Lowes, L.E.; Sargent, E.H.; Nam, R.K.; Kelley, S.O. 2015: Nanoparticle-mediated binning and profiling of heterogeneous circulating tumor cell subpopulations. Angewandte Chemie 54(1): 139-143
Yang, H. 2010: Nanoparticle-mediated brain-specific drug delivery, imaging, and diagnosis. Pharmaceutical Research 27(9): 1759-1771
Yeste, A.; Nadeau, M.; Burns, E.J.; Weiner, H.L.; Quintana, F.J. 2012: Nanoparticle-mediated codelivery of myelin antigen and a tolerogenic small molecule suppresses experimental autoimmune encephalomyelitis. Proceedings of the National Academy of Sciences of the United States of America 109(28): 11270-11275
Khdair, A.; Chen, D.; Patil, Y.; Ma, L.; Dou, Q.Ping.; Shekhar, M.P.V.; Panyam, J. 2010: Nanoparticle-mediated combination chemotherapy and photodynamic therapy overcomes tumor drug resistance. Journal of Controlled Release: Official Journal of the Controlled Release Society 141(2): 137-144
Khdair, A.; Handa, H.; Mao, G.; Panyam, J. 2009: Nanoparticle-mediated combination chemotherapy and photodynamic therapy overcomes tumor drug resistance in vitro. European Journal of Pharmaceutics and Biopharmaceutics: Official Journal of Arbeitsgemeinschaft für Pharmazeutische Verfahrenstechnik E.V 71(2): 214-222
Sehgal, K.; Ragheb, R.; Fahmy, T.M.; Dhodapkar, M.V.; Dhodapkar, K.M. 2014: Nanoparticle-mediated combinatorial targeting of multiple human dendritic cell (DC) subsets leads to enhanced T cell activation via IL-15-dependent DC crosstalk. Journal of Immunology 193(5): 2297-2305
Knight, M.W.; Grady, N.K.; Bardhan, R.; Hao, F.; Nordlander, P.; Halas, N.J. 2007: Nanoparticle-mediated coupling of light into a nanowire. Nano Letters 7(8): 2346-2350
Bale, S.Sundhar.; Kwon, S.Joon.; Shah, D.A.; Banerjee, A.; Dordick, J.S.; Kane, R.S. 2010: Nanoparticle-mediated cytoplasmic delivery of proteins to target cellular machinery. Acs Nano 4(3): 1493-1500
Zhou, Y.; Zhang, L.; Zhao, W.; Wu, Y.; Zhu, C.; Yang, Y. 2013: Nanoparticle-mediated delivery of TGF-β1 miRNA plasmid for preventing flexor tendon adhesion formation. Biomaterials 34(33): 8269-8278
Asai, T. 2012: Nanoparticle-mediated delivery of anticancer agents to tumor angiogenic vessels. Biological and Pharmaceutical Bulletin 35(11): 1855-1861
Georgelin, T.; Bombard, S.; Siaugue, J-Michel.; Cabuil, Vérie. 2010: Nanoparticle-mediated delivery of bleomycin. Angewandte Chemie 49(47): 8897-8901
Ruan, Y.; Yao, L.; Zhang, B.; Zhang, S.; Guo, J. 2012: Nanoparticle-mediated delivery of neurotoxin-II to the brain with intranasal administration: an effective strategy to improve antinociceptive activity of neurotoxin. Drug Development and Industrial Pharmacy 38(1): 123-128
Kimura, S.; Egashira, K.; Chen, L.; Nakano, K.; Iwata, E.; Miyagawa, M.; Tsujimoto, H.; Hara, K.; Morishita, R.; Sueishi, K.; Tominaga, R.; Sunagawa, K. 2009: Nanoparticle-mediated delivery of nuclear factor kappaB decoy into lungs ameliorates monocrotaline-induced pulmonary arterial hypertension. Hypertension 53(5): 877-883
Ko, Y.Tag. 2013: Nanoparticle-mediated delivery of oligonucleotides to the blood-brain barrier: in vitro and in situ brain perfusion studies on the uptake mechanisms. Journal of Drug Targeting 21(9): 866-873
Katsuki, S.; Matoba, T.; Nakashiro, S.; Sato, K.; Koga, J-ichiro.; Nakano, K.; Nakano, Y.; Egusa, S.; Sunagawa, K.; Egashira, K. 2014: Nanoparticle-mediated delivery of pitavastatin inhibits atherosclerotic plaque destabilization/rupture in mice by regulating the recruitment of inflammatory monocytes. Circulation 129(8): 896-906
Chen, L.; Nakano, K.; Kimura, S.; Matoba, T.; Iwata, E.; Miyagawa, M.; Tsujimoto, H.; Nagaoka, K.; Kishimoto, J.; Sunagawa, K.; Egashira, K. 2011: Nanoparticle-mediated delivery of pitavastatin into lungs ameliorates the development and induces regression of monocrotaline-induced pulmonary artery hypertension. Hypertension 57(2): 343-350
Qazi, Y.; Stagg, B.; Singh, N.; Singh, S.; Zhang, X.; Luo, L.; Simonis, J.; Kompella, U.B.; Ambati, B.K. 2012: Nanoparticle-mediated delivery of shRNA.VEGF-a plasmids regresses corneal neovascularization. Investigative Ophthalmology and Visual Science 53(6): 2837-2844
Goldberg, M.S.; Xing, D.; Ren, Y.; Orsulic, S.; Bhatia, S.N.; Sharp, P.A. 2011: Nanoparticle-mediated delivery of siRNA targeting Parp1 extends survival of mice bearing tumors derived from Brca1-deficient ovarian cancer cells. Proceedings of the National Academy of Sciences of the United States of America 108(2): 745-750
Reddy, M.K.; Labhasetwar, V. 2009: Nanoparticle-mediated delivery of superoxide dismutase to the brain: an effective strategy to reduce ischemia-reperfusion injury. Faseb Journal: Official Publication of the Federation of American Societies for Experimental Biology 23(5): 1384-1395
Muthiah, M.; Park, I-Kyu.; Cho, C-Su. 2013: Nanoparticle-mediated delivery of therapeutic genes: focus on miRNA therapeutics. Expert Opinion on Drug Delivery 10(9): 1259-1273
Bonner, J.C.; Card, J.W.; Zeldin, D.C. 2009: Nanoparticle-mediated drug delivery and pulmonary hypertension. Hypertension 53(5): 751-753
Matoba, T.; Egashira, K. 2014: Nanoparticle-mediated drug delivery system for cardiovascular disease. International Heart Journal 55(4): 281-286
Bai, F.; Wang, C.; Lu, Q.; Zhao, M.; Ban, F-Qiang.; Yu, D-Hong.; Guan, Y-Yun.; Luan, X.; Liu, Y-Rong.; Chen, H-Zhuan.; Fang, C. 2013: Nanoparticle-mediated drug delivery to tumor neovasculature to combat P-gp expressing multidrug resistant cancer. Biomaterials 34(26): 6163-6174
Zhou, J-Jia.; Chen, R-Fu.; Li, Z-Hua.; Zhou, Q-Bo.; Tang, Q-Bin.; He, X-Yu.; Lu, H-Wei.; Guo, N. 2009: Nanoparticle-mediated endostatin gene therapy targeting hepatocellular carcinoma utilizing heat-inducible promoter. Zhonghua Yi Xue Za Zhi 89(12): 795-799
Oda, S.; Nagahama, R.; Nakano, K.; Matoba, T.; Kubo, M.; Sunagawa, K.; Tominaga, R.; Egashira, K. 2010: Nanoparticle-mediated endothelial cell-selective delivery of pitavastatin induces functional collateral arteries (therapeutic arteriogenesis) in a rabbit model of chronic hind limb ischemia. Journal of Vascular Surgery 52(2): 412-420
Park, K.; Chen, Y.; Hu, Y.; Mayo, A.S.; Kompella, U.B.; Longeras, R.; Ma, J-xing. 2009: Nanoparticle-mediated expression of an angiogenic inhibitor ameliorates ischemia-induced retinal neovascularization and diabetes-induced retinal vascular leakage. Diabetes 58(8): 1902-1913
Jin, S.; Leach, J.C.; Ye, K. 2009: Nanoparticle-mediated gene delivery. Methods in Molecular Biology 544: 547-557
Ramesh, R. 2008: Nanoparticle-mediated gene delivery to the lung. Methods in Molecular Biology 433: 301-331
Kovtun, A.; Neumann, S.; Neumeier, M.; Urch, H.; Heumann, R.; Gepp, M.M.; Wallat, K.; Koeller, M.; Zimmermann, H.; Epple, M. 2013: Nanoparticle-mediated gene transfer from electrophoretically coated metal surfaces. Journal of Physical Chemistry. B 117(6): 1550-1555
Koirala, A.; Makkia, R.S.; Cooper, M.J.; Naash, M.I. 2011: Nanoparticle-mediated gene transfer specific to retinal pigment epithelial cells. Biomaterials 32(35): 9483-9493
Chatterjee, D.Kumar.; Diagaradjane, P.; Krishnan, S. 2011: Nanoparticle-mediated hyperthermia in cancer therapy. Therapeutic Delivery 2(8): 1001-1014
Hallaj-Nezhadi, S.; Lotfipour, F.; Dass, C. 2010: Nanoparticle-mediated interleukin-12 cancer gene therapy. Journal of Pharmacy and Pharmaceutical Sciences: a Publication of the Canadian Society for Pharmaceutical Sciences Societe Canadienne des Sciences Pharmaceutiques 13(3): 472-485
Chen, W.; Chen, S.; Ding, F.; Wang, H.; Brown, L.E.; Konopelski, J.P. 2008: Nanoparticle-mediated intervalence transfer. Journal of the American Chemical Society 130(36): 12156-12162
Tsukahara, T.; Haniu, H. 2011: Nanoparticle-mediated intracellular lipid accumulation during C2C12 cell differentiation. Biochemical and Biophysical Research Communications 406(4): 558-563
Kim, Y-tae.; Caldwell, J-Michael.; Bellamkonda, R.V. 2009: Nanoparticle-mediated local delivery of Methylprednisolone after spinal cord injury. Biomaterials 30(13): 2582-2590
Sun, D-Xin.; Liu, Z.; Tan, X-Dong.; Cui, D-Xu.; Wang, B-Sheng.; Dai, X-Wei. 2012: Nanoparticle-mediated local delivery of an antisense TGF-β1 construct inhibits intimal hyperplasia in autogenous vein grafts in rats. Plos one 7(7): E41857
Ullal, A.V.; Reiner, T.; Yang, K.S.; Gorbatov, R.; Min, C.; Issadore, D.; Lee, H.; Weissleder, R. 2011: Nanoparticle-mediated measurement of target-drug binding in cancer cells. Acs Nano 5(11): 9216-9224
Köber, M.; Moros, M.; Franco Fraguas, L.; Grazú, V.; de la Fuente, J.M.; Luna, Mónica.; Briones, F. 2014: Nanoparticle-mediated monitoring of carbohydrate-lectin interactions using Transient Magnetic Birefringence. Analytical Chemistry 86(24): 12159-12165
Sivasankar, S.; Chu, S. 2009: Nanoparticle-mediated nonfluorescent bonding of microspheres to atomic force microscope cantilevers and imaging fluorescence from bonded cantilevers with single molecule sensitivity. Nano Letters 9(5): 2120-2124
Sharma, B.; Ma, W.; Adjei, I.Morris.; Panyam, J.; Dimitrijevic, S.; Labhasetwar, V. 2011: Nanoparticle-mediated p53 gene therapy for tumor inhibition. Drug Delivery and Translational Research 1(1): 43-52
Pattani, V.P.; Tunnell, J.W. 2012: Nanoparticle-mediated photothermal therapy: a comparative study of heating for different particle types. Lasers in Surgery and Medicine 44(8): 675-684
Paranjpe, M.; Müller-Goymann, C.C. 2014: Nanoparticle-mediated pulmonary drug delivery: a review. International Journal of Molecular Sciences 15(4): 5852-5873
Knecht, L.D.; Ali, N.; Wei, Y.; Hilt, J.Zach.; Daunert, S. 2012: Nanoparticle-mediated remote control of enzymatic activity. Acs Nano 6(10): 9079-9086
Patil, Y.; Sadhukha, T.; Ma, L.; Panyam, J. 2009: Nanoparticle-mediated simultaneous and targeted delivery of paclitaxel and tariquidar overcomes tumor drug resistance. Journal of Controlled Release: Official Journal of the Controlled Release Society 136(1): 21-29
Draz, M.Shehata.; Fang, B.Amanda.; Zhang, P.; Hu, Z.; Gu, S.; Weng, K.C.; Gray, J.W.; Chen, F.Frank. 2014: Nanoparticle-mediated systemic delivery of siRNA for treatment of cancers and viral infections. Theranostics 4(9): 872-892
Mahajan, S.D.; Law, W-Cheung.; Aalinkeel, R.; Reynolds, J.; Nair, B.B.; Yong, K-Tye.; Roy, I.; Prasad, P.N.; Schwartz, S.A. 2012: Nanoparticle-mediated targeted delivery of antiretrovirals to the brain. Methods in Enzymology 509: 41-60
Basu, S.; Harfouche, R.; Soni, S.; Chimote, G.; Mashelkar, R.A.; Sengupta, S. 2009: Nanoparticle-mediated targeting of MAPK signaling predisposes tumor to chemotherapy. Proceedings of the National Academy of Sciences of the United States of America 106(19): 7957-7961
Harfouche, R.; Basu, S.; Soni, S.; Hentschel, D.M.; Mashelkar, R.A.; Sengupta, S. 2009: Nanoparticle-mediated targeting of phosphatidylinositol-3-kinase signaling inhibits angiogenesis. Angiogenesis 12(4): 325-338
Krishnan, S.; Diagaradjane, P.; Cho, S.Hyun. 2010: Nanoparticle-mediated thermal therapy: evolving strategies for prostate cancer therapy. International Journal of Hyperthermia: the Official Journal of European Society for Hyperthermic Oncology North American Hyperthermia Group 26(8): 775-789
Mosgoeller, W.; Prassl, R.; Zimmer, A. 2012: Nanoparticle-mediated treatment of pulmonary arterial hypertension. Methods in Enzymology 508: 325-354
Tang, Y.; Cheng, W. 2013: Nanoparticle-modified electrode with size- and shape-dependent electrocatalytic activities. Langmuir 29(9): 3125-3132
Belding, S.R.; Campbell, F.W.; Dickinson, E.J.F.; Compton, R.G. 2010: Nanoparticle-modified electrodes. Physical Chemistry Chemical Physics: Pccp 12(37): 11208-11221
Lin, C-Fuh.; Chung, P-Fei.; Chen, M-Jang.; Su, W-Fang. 2002: Nanoparticle-modified metal-oxide-silicon structure enhancing silicon band-edge electroluminescence to near-lasing action. Optics Letters 27(9): 713-715
Krenkova, J.; Foret, F. 2013: Nanoparticle-modified monolithic pipette tips for phosphopeptide enrichment. Analytical and Bioanalytical Chemistry 405(7): 2175-2183
Pyrgiotakis, G.; Blattmann, C.O.; Pratsinis, S.; Demokritou, P. 2013: Nanoparticle-nanoparticle interactions in biological media by atomic force microscopy. Langmuir 29(36): 11385-11395
Rance, G.A.; Khlobystov, A.N. 2010: Nanoparticle-nanotube electrostatic interactions in solution: the effect of pH and ionic strength. Physical Chemistry Chemical Physics: Pccp 12(36): 10775-10780
Saunders, B.R.; Turner, M.L. 2008: Nanoparticle-polymer photovoltaic cells. Advances in Colloid and Interface Science 138(1): 1-23
Cheng, Y.; Morshed, R.; Cheng, S-Hsun.; Tobias, A.; Auffinger, B.; Wainwright, D.A.; Zhang, L.; Yunis, C.; Han, Y.; Chen, C-Tu.; Lo, L-Wei.; Aboody, K.S.; Ahmed, A.U.; Lesniak, M.S. 2013: Nanoparticle-programmed self-destructive neural stem cells for glioblastoma targeting and therapy. Small 9(24): 4123-4129
Boulos, S.P.; Davis, T.A.; Yang, J.An.; Lohse, S.E.; Alkilany, A.M.; Holland, L.A.; Murphy, C.J. 2013: Nanoparticle-protein interactions: a thermodynamic and kinetic study of the adsorption of bovine serum albumin to gold nanoparticle surfaces. Langmuir 29(48): 14984-14996
Agrawal, S.K.; Sanabria-Delong, N.; Tew, G.N.; Bhatia, S.R. 2008: Nanoparticle-reinforced associative network hydrogels. Langmuir 24(22): 13148-13154
Xia, Y.; Zhang, F.; Xie, H.; Gu, N. 2008: Nanoparticle-reinforced resin-based dental composites. Journal of Dentistry 36(6): 450-455
Stanwix, H. 2012: Nanoparticle-releasing vaccine could help prevent sexually transmitted diseases. Expert Review of Vaccines 11(10): 1168
Win-Shwe, T-Tin.; Yamamoto, S.; Fujitani, Y.; Hirano, S.; Fujimaki, H. 2012: Nanoparticle-rich diesel exhaust affects hippocampal-dependent spatial learning and NMDA receptor subunit expression in female mice. Nanotoxicology 6(5): 543-553
Ramdhan, D.Hikmat.; Ito, Y.; Yanagiba, Y.; Yamagishi, N.; Hayashi, Y.; Li, C.; Taneda, S.; Suzuki, A.K.; Watanabe, G.; Taya, K.; Kamijima, M.; Nakajima, T. 2009: Nanoparticle-rich diesel exhaust may disrupt testosterone biosynthesis and metabolism via growth hormone. Toxicology Letters 191(2-3): 103-108
Shastri, L.; Kailasa, S.Kumar.; Wu, H-Fen. 2010: Nanoparticle-single drop microextraction as multifunctional and sensitive nanoprobes: Binary matrix approach for gold nanoparticles modified with (4-mercaptophenyliminomethyl)-2-methoxyphenol for peptide and protein analysis in MALDI-TOF MS. Talanta 81(4-5): 1176-1182
Landa, P.; Vankova, R.; Andrlova, J.; Hodek, J.; Marsik, P.; Storchova, H.; White, J.C.; Vanek, T. 2012: Nanoparticle-specific changes in Arabidopsis thaliana gene expression after exposure to ZnO, TiO2, and fullerene soot. Journal of Hazardous Materials 241-242: 55-62
Worthen, A.J.; Bagaria, H.G.; Chen, Y.; Bryant, S.L.; Huh, C.; Johnston, K.P. 2013: Nanoparticle-stabilized carbon dioxide-in-water foams with fine texture. Journal of Colloid and Interface Science 391: 142-151
Wu, L.; da Rocha, S.R.P. 2011: Nanoparticle-stabilized colloids in compressible hydrofluoroalkanes. Langmuir 27(17): 10501-10506
Miesch, C.; Kosif, I.; Lee, E.; Kim, J-Keun.; Russell, T.P.; Hayward, R.C.; Emrick, T. 2012: Nanoparticle-stabilized double emulsions and compressed droplets. Angewandte Chemie 51(1): 145-149
Thamphiwatana, S.; Fu, V.; Zhu, J.; Lu, D.; Gao, W.; Zhang, L. 2013: Nanoparticle-stabilized liposomes for pH-responsive gastric drug delivery. Langmuir 29(39): 12228-12233
Polshettiwar, V.; Varma, R.S. 2009: Nanoparticle-supported and magnetically recoverable palladium (Pd) catalyst: a selective and sustainable oxidation protocol with high turnover number. Organic and Biomolecular Chemistry 7(1): 37-40
Polshettiwar, V.; Varma, R.S. 2009: Nanoparticle-supported and magnetically recoverable ruthenium hydroxide catalyst: efficient hydration of nitriles to amides in aqueous medium. Chemistry 15(7): 1582-1586
Koh, I.; Hong, R.; Weissleder, R.; Josephson, L. 2009: Nanoparticle-target interactions parallel antibody-protein interactions. Analytical Chemistry 81(9): 3618-3622
Weiss, R.A.; Zhai, X.; Dobrynin, A.V. 2008: Nanoparticle-textured surfaces from spin coating. Langmuir 24(10): 5218-5220
Xiao, X.; He, S.; Dan, M.; Huo, F.; Zhang, W. 2014: Nanoparticle-to-vesicle and nanoparticle-to-toroid transitions of pH-sensitive ABC triblock copolymers by in-to-out switch. Chemical Communications 50(30): 3969-3972
Liao, H-Chung.; Tsao, C-Si.; Lin, T-Han.; Jao, M-Huan.; Chuang, C-Min.; Chang, S-Yong.; Huang, Y-Ching.; Shao, Y-Tsun.; Chen, C-Ying.; Su, C-Jen.; Jeng, U-Ser.; Chen, Y-Fang.; Su, W-Fang. 2012: Nanoparticle-tuned self-organization of a bulk heterojunction hybrid solar cell with enhanced performance. Acs Nano 6(2): 1657-1666
Pursiainen, O.L.; Baumberg, J.J.; Winkler, H.; Viel, B.; Spahn, P.; Ruhl, T. 2007: Nanoparticle-tuned structural color from polymer opals. Optics Express 15(15): 9553-9561
Rahman, A.; Biswas, N.; Ulrichs, C.; Büttner, C.; Bramhachary, R.Lal.; Goswami, A.; Datta, A. 2009: Nanoparticle-virus complex shows enhanced immunological effect against baculovirus. Journal of Nanoscience and Nanotechnology 9(9): 5567-5571
Xu, X.; Luo, J.; Guo, D. 2011: Nanoparticle-wall collision in a laminar cylindrical liquid jet. Journal of Colloid and Interface Science 359(2): 334-338
Voevodin, A.A.; Vaia, R.A.; Patton, S.T.; Diamanti, S.; Pender, M.; Yoonessi, M.; Brubaker, J.; Hu, J-Jun.; Sanders, J.H.; Phillips, B.S.; MacCuspie, R.I. 2007: Nanoparticle-wetted surfaces for relays and energy transmission contacts. Small 3(11): 1957-1963
Zhang, P.; Song, X.; Tong, W.; Gao, C. 2014: Nanoparticle/Polymer assembled microcapsules with pH sensing property. Macromolecular Bioscience 14(10): 1495-1504
Berk, S.; Akkurt, I. 2012: Nanoparticle: a nightmare for the future. Tuberkuloz Ve Toraks 60(2): 180-184
Streinu-Cercel, A. 2012: Nanoparticles. Germs 2(3): 90
Ishii, T.; Fukuta, T.; Agato, Y.; Oyama, D.; Yasuda, N.; Shimizu, K.; Kawaguchi, A.T.; Asai, T.; Oku, N. 2013: Nanoparticles accumulate in ischemic core and penumbra region even when cerebral perfusion is reduced. Biochemical and Biophysical Research Communications 430(4): 1201-1205
Doorley, G.W.; Payne, C.K. 2012: Nanoparticles act as protein carriers during cellular internalization. Chemical Communications 48(24): 2961-2963
Yazdi, A.S.; Guarda, G.; Riteau, N.; Drexler, S.K.; Tardivel, A.; Couillin, I.; Tschopp, Jürg. 2010: Nanoparticles activate the NLR pyrin domain containing 3 (Nlrp3) inflammasome and cause pulmonary inflammation through release of IL-1α and IL-1β. Proceedings of the National Academy of Sciences of the United States of America 107(45): 19449-19454
Luu, X-Cuong.; Yu, J.; Striolo, A. 2013: Nanoparticles adsorbed at the water/oil interface: coverage and composition effects on structure and diffusion. Langmuir 29(24): 7221-7228
Brambilla, D.; Verpillot, R.; De Kimpe, L.; Taverna, M.; Le Droumaguet, B.; Nicolas, J.; Canovi, M.; Gobbi, M.; Salmona, M.; Nicolas, V.; Scheper, W.; Couvreur, P.; Andrieux, K. 2010: Nanoparticles against Alzheimer's disease: PEG-PACA nanoparticles are able to link the aβ-peptide and influence its aggregation kinetic. Journal of Controlled Release: Official Journal of the Controlled Release Society 148(1): E112-E113
Yan, D.; Cheng, S.; Zhuo, R.F.; Chen, J.T.; Feng, J.J.; Feng, H.T.; Li, H.J.; Wu, Z.G.; Wang, J.; Yan, P.X. 2009: Nanoparticles and 3D sponge-like porous networks of manganese oxides and their microwave absorption properties. Nanotechnology 20(10): 105706
Fischer, N.O.; Rasley, A.; Blanchette, C. 2014: Nanoparticles and antigen delivery: understanding the benefits and drawbacks of different delivery platforms. Nanomedicine 9(4): 373-376
Domínguez, A.; Suárez-Merino, B.; Goñi-de-Cerio, F. 2014: Nanoparticles and blood-brain barrier: the key to central nervous system diseases. Journal of Nanoscience and Nanotechnology 14(1): 766-779
Bharali, D.J.; Khalil, M.; Gurbuz, M.; Simone, T.M.; Mousa, S.A. 2009: Nanoparticles and cancer therapy: a concise review with emphasis on dendrimers. International Journal of Nanomedicine 4: 1-7
Petri-Fink, A.; Rothen-Rutishauser, B. 2012: Nanoparticles and cells: an interdisciplinary approach. Chimia 66(3): 104-109
Maysinger, D. 2007: Nanoparticles and cells: good companions and doomed partnerships. Organic and Biomolecular Chemistry 5(15): 2335-2342
Sly, P.D.; Schüepp, K. 2012: Nanoparticles and children's lungs: is there a need for caution?. Paediatric Respiratory Reviews 13(2): 71-72
Bondy, S.C. 2011: Nanoparticles and colloids as contributing factors in neurodegenerative disease. International Journal of Environmental Research and Public Health 8(6): 2200-2211
Dubus, J-C.; Bosdure, E.; David, M.; Stremler-Lebel, N. 2010: Nanoparticles and health. Archives de Pediatrie: Organe Officiel de la Societe Francaise de Pediatrie 17(6): 600-601
Stevenson, R.; Hueber, A.J.; Hutton, A.; McInnes, I.B.; Graham, D. 2011: Nanoparticles and inflammation. Thescientificworldjournal 11: 1300-1312
Nandy, P.; Bhandary, S.; Das, S.; Basu, R.; Bhattacharya, S. 2011: Nanoparticles and membrane anisotropy. Homeopathy: the Journal of the Faculty of Homeopathy 100(3): 194
Singh, M.; Chakrapani, A.; O'Hagan, D. 2007: Nanoparticles and microparticles as vaccine-delivery systems. Expert Review of Vaccines 6(5): 797-808
Prow, T.W.; Grice, J.E.; Lin, L.L.; Faye, R.; Butler, M.; Becker, W.; Wurm, E.M.T.; Yoong, C.; Robertson, T.A.; Soyer, H.Peter.; Roberts, M.S. 2011: Nanoparticles and microparticles for skin drug delivery. Advanced Drug Delivery Reviews 63(6): 470-491
Rivas-Aravena, A.; Sandino, A.María.; Spencer, E. 2013: Nanoparticles and microparticles of polymers and polysaccharides to administer fish vaccines. Biological Research 46(4): 407-419
Pantic, I. 2011: Nanoparticles and modulation of immune responses. Science Progress 94(Pt 1): 97-107
Win-Shwe, T-Tin.; Fujimaki, H. 2011: Nanoparticles and neurotoxicity. International Journal of Molecular Sciences 12(9): 6267-6280
Stodulski, M.; Gulder, T. 2012: Nanoparticles and peptides: a fruitful liaison for biomimetic catalysis. Angewandte Chemie 51(45): 11202-11204
Cutler, C.S.; Chanda, N.; Shukla, R.; Sisay, N.; Cantorias, M.; Zambre, A.; McLaughlin, M.; Kelsey, J.; Upenandran, A.; Robertson, D.; Deutscher, S.; Kannan, R.; Katti, K. 2013: Nanoparticles and phage display selected peptides for imaging and therapy of cancer. Recent Results in Cancer Research. Fortschritte der Krebsforschung. Progres Dans les Recherches sur le Cancer 194: 133-147
Lehmbecker, A.; Rittinghausen, S.; Rohn, K.; Baumgärtner, W.; Schaudien, D. 2014: Nanoparticles and pop-off technique for electron microscopy: a known technique for a new purpose. Toxicologic Pathology 42(6): 1041-1046
Zafeiridou, M.; Hopkinson, N.S.; Voulvoulis, N. 2018: Cigarette Smoking: An Assessment of Tobacco's Global Environmental Footprint Across its Entire Supply Chain. Environmental Science and Technology 52(15): 8087-8094
Lan, Z.; Yang, W-Xi. 2012: Nanoparticles and spermatogenesis: how do nanoparticles affect spermatogenesis and penetrate the blood-testis barrier. Nanomedicine 7(4): 579-596
Esfahani, D.R.; Viswanathan, V.; Alaraj, A. 2015: Nanoparticles and stem cells - has targeted therapy for aneurysms finally arrived?. Neurological Research 37(3): 269-277
Botequim, D.; Maia, J.; Lino, M.M.F.; Lopes, L.M.F.; Simões, P.N.; Ilharco, L.M.; Ferreira, L. 2012: Nanoparticles and surfaces presenting antifungal, antibacterial and antiviral properties. Langmuir 28(20): 7646-7656
Ilinskaya, A.N.; Dobrovolskaia, M.A. 2013: Nanoparticles and the blood coagulation system. Part I: benefits of nanotechnology. Nanomedicine 8(5): 773-784
Ilinskaya, A.N.; Dobrovolskaia, M.A. 2013: Nanoparticles and the blood coagulation system. Part II: safety concerns. Nanomedicine 8(6): 969-981
Oberdörster, Günter.; Elder, A.; Rinderknecht, A. 2009: Nanoparticles and the brain: cause for concern?. Journal of Nanoscience and Nanotechnology 9(8): 4996-5007
Donaldson, K.; Duffin, R.; Langrish, J.P.; Miller, M.R.; Mills, N.L.; Poland, C.A.; Raftis, J.; Shah, A.; Shaw, C.A.; Newby, D.E. 2013: Nanoparticles and the cardiovascular system: a critical review. Nanomedicine 8(3): 403-423
Allaker, R.P.; Memarzadeh, K. 2014: Nanoparticles and the control of oral infections. International Journal of Antimicrobial Agents 43(2): 95-104
Zolnik, B.S.; González-Fernández, A.; Sadrieh, N.; Dobrovolskaia, M.A. 2010: Nanoparticles and the immune system. Endocrinology 151(2): 458-465
Prakash, Y.S.; Matalon, S. 2014: Nanoparticles and the lung: friend or foe?. American Journal of Physiology. Lung Cellular and Molecular Physiology 306(5): L393-L396
Lane, M.E. 2011: Nanoparticles and the skin--applications and limitations. Journal of Microencapsulation 28(8): 709-716
Wang, E.C.; Wang, A.Z. 2014: Nanoparticles and their applications in cell and molecular biology. Integrative Biology: Quantitative Biosciences from Nano to Macro 6(1): 9-26
Schneider, M.; Stracke, F.; Hansen, S.; Schaefer, U.F. 2009: Nanoparticles and their interactions with the dermal barrier. Dermato-Endocrinology 1(4): 197-206
Tautzenberger, A.; Kovtun, A.; Ignatius, A. 2012: Nanoparticles and their potential for application in bone. International Journal of Nanomedicine 7: 4545-4557
Teghil, R.; D'Alessio, L.; De Bonis, A.; Galasso, A.; Ibris, N.; Salvi, A.Maria.; Santagata, A.; Villani, P. 2009: Nanoparticles and thin film formation in ultrashort pulsed laser deposition of vanadium oxide. Journal of Physical Chemistry. a 113(52): 14969-14974
Hossain, S.; Chowdhury, E.Hoque.; Akaike, T. 2011: Nanoparticles and toxicity in therapeutic delivery: the ongoing debate. Therapeutic Delivery 2(2): 125-132
Arruda, S.Cristina.Capaldi.; Silva, A.Luiz.Diniz.; Galazzi, R.Moretto.; Azevedo, R.Antunes.; Arruda, M.Aurélio.Zezzi. 2015: Nanoparticles applied to plant science: a review. Talanta 131: 693-705
Chakraborty, C.; Pal, S.; Doss, G.Priya.C.; Wen, Z-Hong.; Lin, C-Shing. 2013: Nanoparticles as 'smart' pharmaceutical delivery. Frontiers in Bioscience 18: 1030-1050
Díaz, Mónica.Rivera.; Vivas-Mejia, P.E. 2013: Nanoparticles as Drug Delivery Systems in Cancer Medicine: Emphasis on RNAi-Containing Nanoliposomes. Pharmaceuticals 6(11): 1361-1380
Jimnéz-Fernández, E.; Zuasti, E.; Ruyra, A.; Roher, N.; Infante, C.; Fernández-Díaz, C. 2013: Nanoparticles as a novel delivery system for vitamin C administration in aquaculture. Communications in Agricultural and Applied Biological Sciences 78(4): 202-203
Han, G.; Tar, M.; Kuppam, D.S.R.; Friedman, A.; Melman, A.; Friedman, J.; Davies, K.P. 2010: Nanoparticles as a novel delivery vehicle for therapeutics targeting erectile dysfunction. Journal of Sexual Medicine 7(1 Pt 1): 224-233
Bonner, J.C. 2010: Nanoparticles as a potential cause of pleural and interstitial lung disease. Proceedings of the American Thoracic Society 7(2): 138-141
Herman, A.; Herman, A.Przemysław. 2014: Nanoparticles as antimicrobial agents: their toxicity and mechanisms of action. Journal of Nanoscience and Nanotechnology 14(1): 946-957
El-Ansary, A.; Faddah, L.M. 2010: Nanoparticles as biochemical sensors. Nanotechnology Science and Applications 3: 65-76
Shilo, M.; Reuveni, T.; Motiei, M.; Popovtzer, R. 2012: Nanoparticles as computed tomography contrast agents: current status and future perspectives. Nanomedicine 7(2): 257-269
Hahn, M.A.; Singh, A.K.; Sharma, P.; Brown, S.C.; Moudgil, B.M. 2011: Nanoparticles as contrast agents for in-vivo bioimaging: current status and future perspectives. Analytical and Bioanalytical Chemistry 399(1): 3-27
Fang, J-You.; Al-Suwayeh, S.A. 2012: Nanoparticles as delivery carriers for anticancer prodrugs. Expert Opinion on Drug Delivery 9(6): 657-669
Vergoni, A.Valeria.; Tosi, G.; Tacchi, R.; Vandelli, M.Angela.; Bertolini, A.; Costantino, L. 2009: Nanoparticles as drug delivery agents specific for CNS: in vivo biodistribution. Nanomedicine: Nanotechnology Biology and Medicine 5(4): 369-377
Fenaroli, F.; Westmoreland, D.; Benjaminsen, Jørgen.; Kolstad, T.; Skjeldal, F.Miltzow.; Meijer, A.H.; van der Vaart, M.; Ulanova, L.; Roos, N.; Nyström, B.; Hildahl, J.; Griffiths, G. 2014: Nanoparticles as drug delivery system against tuberculosis in zebrafish embryos: direct visualization and treatment. Acs Nano 8(7): 7014-7026
Sanzhakov, M.A.; Ipatova, O.M.; Torkhovskaia, T.I.; Prozorovskiĭ, V.N.; Tikhonova, E.G.; Druzhilovskaia, O.S.; Medvedeva, N.V. 2013: Nanoparticles as drug delivery system for antituberculous drugs. Vestnik Rossiiskoi Akademii Meditsinskikh Nauk 2013(8): 37-44
Wilczewska, A.Z.; Niemirowicz, K.; Markiewicz, K.H.; Car, H. 2012: Nanoparticles as drug delivery systems. Pharmacological Reports: Pr 64(5): 1020-1037
Swift, J.L.; Cramb, D.T. 2008: Nanoparticles as fluorescence labels: is size all that matters?. Biophysical Journal 95(2): 865-876
Coto-García, A.María.; Sotelo-González, E.; Fernández-Argüelles, Mía.Teresa.; Pereiro, R.; Costa-Fernández, Jé.M.; Sanz-Medel, A. 2011: Nanoparticles as fluorescent labels for optical imaging and sensing in genomics and proteomics. Analytical and Bioanalytical Chemistry 399(1): 29-42
Chen, W.; Cormode, D.P.; Fayad, Z.A.; Mulder, W.J.M. 2011: Nanoparticles as magnetic resonance imaging contrast agents for vascular and cardiac diseases. Wiley Interdisciplinary Reviews. Nanomedicine and Nanobiotechnology 3(2): 146-161
Moreno, E.; Schwartz, J.; Fernández, C.; Sanmartín, C.; Nguewa, P.; Irache, J.Manuel.; Espuelas, S. 2014: Nanoparticles as multifunctional devices for the topical treatment of cutaneous leishmaniasis. Expert Opinion on Drug Delivery 11(4): 579-597
Ragusa, A.; García, I.; Penadés, S. 2007: Nanoparticles as nonviral gene delivery vectors. IEEE Transactions on Nanobioscience 6(4): 319-330
de la Fuente, M.; Csaba, Némi.; Garcia-Fuentes, M.; Alonso, M.Jose. 2008: Nanoparticles as protein and gene carriers to mucosal surfaces. Nanomedicine 3(6): 845-857
Liu, B.; Zeng, F.; Wu, G.; Wu, S. 2012: Nanoparticles as scaffolds for FRET-based ratiometric detection of mercury ions in water with QDs as donors. Analyst 137(16): 3717-3724
Schätz, A.; Reiser, O.; Stark, W.J. 2010: Nanoparticles as semi-heterogeneous catalyst supports. Chemistry 16(30): 8950-8967
Główka, E.; Maincent, P.; Sapin, A.; Lulek, J.; Leroy, P. 2009: Nanoparticles as tools for evaluation of cellular redox state. Journal of Biomedical Nanotechnology 5(6): 641-651
Ferreira, L. 2009: Nanoparticles as tools to study and control stem cells. Journal of Cellular Biochemistry 108(4): 746-752
Wu, Y.; Zhan, S.; Xing, H.; He, L.; Xu, L.; Zhou, P. 2012: Nanoparticles assembled by aptamers and crystal violet for arsenic(III) detection in aqueous solution based on a resonance Rayleigh scattering spectral assay. Nanoscale 4(21): 6841-6849
Stehlik, S.; Petit, T.; Girard, H.A.; Arnault, J-Charles.; Kromka, A.; Rezek, B. 2013: Nanoparticles assume electrical potential according to substrate, size, and surface termination. Langmuir 29(5): 1634-1641
Flatté, M.E.; Kornyshev, A.A.; Urbakh, M. 2009: Nanoparticles at electrified liquid--liquid interfaces: new options for electro-optics. Faraday Discussions 143: 109-15; discussion 169-86
Garbin, V.; Crocker, J.C.; Stebe, K.J. 2012: Nanoparticles at fluid interfaces: exploiting capping ligands to control adsorption, stability and dynamics. Journal of Colloid and Interface Science 387(1): 1-11
Razavi, S.; Kretzschmar, I.; Koplik, J.; Colosqui, C.E. 2014: Nanoparticles at liquid interfaces: rotational dynamics and angular locking. Journal of Chemical Physics 140(1): 014904
Salomon, J.J.; Ehrhardt, C. 2011: Nanoparticles attenuate P-glycoprotein/MDR1 function in A549 human alveolar epithelial cells. European Journal of Pharmaceutics and Biopharmaceutics: Official Journal of Arbeitsgemeinschaft für Pharmazeutische Verfahrenstechnik E.V 77(3): 392-397
d'Angelo, I.; Garcia-Fuentes, M.; Parajó, Y.; Welle, A.; Vántus, T.; Horváth, Aó.; Bökönyi, Görgyi.; Kéri, Görgy.; Alonso, M.José. 2010: Nanoparticles based on PLGA:poloxamer blends for the delivery of proangiogenic growth factors. Molecular Pharmaceutics 7(5): 1724-1733
Samadi, N.; van Steenbergen, M.J.; van den Dikkenberg, J.B.; Vermonden, T.; van Nostrum, C.F.; Amidi, M.; Hennink, W.E. 2014: Nanoparticles based on a hydrophilic polyester with a sheddable PEG coating for protein delivery. Pharmaceutical Research 31(10): 2593-2604
Wilson, B.; Ambika, T.V.; Patel, R.Dharmesh.Kumar.; Jenita, J.Leno.; Priyadarshini, S.R.B. 2012: Nanoparticles based on albumin: preparation, characterization and the use for 5-flurouracil delivery. International Journal of Biological Macromolecules 51(5): 874-878
Sun, F.; Ju, C.; Chen, J.; Liu, S.; Liu, N.; Wang, K.; Liu, C. 2012: Nanoparticles based on hydrophobic alginate derivative as nutraceutical delivery vehicle: vitamin D3 loading. Artificial Cells Blood Substitutes and Immobilization Biotechnology 40(1-2): 113-119
Parraga, J.E.; Zorzi, G.K.; Diebold, Y.; Seijo, Bña.; Sanchez, A. 2014: Nanoparticles based on naturally-occurring biopolymers as versatile delivery platforms for delicate bioactive molecules: an application for ocular gene silencing. International Journal of Pharmaceutics 477(1-2): 12-20
Li, Y.; Duong, H.T.T.; Laurent, S.; MacMillan, A.; Whan, R.Megan.; Elst, L.Vander.; Muller, R.N.; Hu, J.; Lowe, A.; Boyer, C.; Davis, T.P. 2015: Nanoparticles based on star polymers as theranostic vectors: endosomal-triggered drug release combined with MRI sensitivity. Advanced Healthcare Materials 4(1): 148-156
Edmundson, M.; Thanh, N.Tk.; Song, B. 2013: Nanoparticles based stem cell tracking in regenerative medicine. Theranostics 3(8): 573-582
Gardikiotis, F.; Peptu, Cătălina.; Popa, M.; Costin, D. 2011: Nanoparticles biodistribution in the eye. Oftalmologia 55(4): 92-96
Bronstein, L.M.; Atkinson, J.E.; Malyutin, A.G.; Kidwai, F.; Stein, B.D.; Morgan, D.G.; Perry, J.M.; Karty, J.A. 2011: Nanoparticles by decomposition of long chain iron carboxylates: from spheres to stars and cubes. Langmuir 27(6): 3044-3050
Li, X.; Anton, N.; Arpagaus, C.; Belleteix, F.; Vandamme, T.F. 2010: Nanoparticles by spray drying using innovative new technology: the Büchi nano spray dryer B-90. Journal of Controlled Release: Official Journal of the Controlled Release Society 147(2): 304-310
Przybytkowski, E.; Behrendt, M.; Dubois, D.; Maysinger, D. 2009: Nanoparticles can induce changes in the intracellular metabolism of lipids without compromising cellular viability. Febs Journal 276(21): 6204-6217
Zong, H.; Zhao, H.; Zhao, Y.; Jia, J.; Yang, L.; Ma, C.; Zhang, Y.; Dong, Y. 2013: Nanoparticles carrying neurotrophin-3-modified Schwann cells promote repair of sciatic nerve defects. Neural Regeneration Research 8(14): 1262-1268
Wang, R.; Li, L.; Arachchige, I.; Ganguly, S.; Brock, S.L.; Mao, G. 2010: Nanoparticles change the ordering pattern of n-carboxylic acids into nanorods on HOPG. Acs Nano 4(11): 6687-6696
Murdoch, C.; Reeves, K.J.; Hearnden, V.; Colley, H.; Massignani, M.; Canton, I.; Madsen, J.; Blanazs, A.; Armes, S.P.; Lewis, A.L.; Macneil, S.; Brown, N.J.; Thornhill, M.H.; Battaglia, G. 2010: Internalization and biodistribution of polymersomes into oral squamous cell carcinoma cells in vitro and in vivo. Nanomedicine 5(7): 1025-1036
Hama, S.; Kogure, K. 2014: Nanoparticles consisting of tocopheryl succinate are a novel drug-delivery system with multifaceted antitumor activity. Biological and Pharmaceutical Bulletin 37(2): 196-200
Zhang, X-Qing.; Even-Or, O.; Xu, X.; van Rosmalen, M.; Lim, L.; Gadde, S.; Farokhzad, O.C.; Fisher, E.A. 2015: Nanoparticles containing a liver X receptor agonist inhibit inflammation and atherosclerosis. Advanced Healthcare Materials 4(2): 228-236
Hinzmann, M.; Jaworski, Sławomir.; Kutwin, M.; Jagiełło, J.; Koziński, Rł.; Wierzbicki, M.; Grodzik, M.; Lipińska, L.; Sawosz, E.; Chwalibog, Aè. 2014: Nanoparticles containing allotropes of carbon have genotoxic effects on glioblastoma multiforme cells. International Journal of Nanomedicine 9: 2409-2417
Lu, X.; Howard, M.D.; Talbert, D.R.; Rinehart, J.J.; Potter, P.M.; Jay, M.; Leggas, M. 2009: Nanoparticles containing anti-inflammatory agents as chemotherapy adjuvants II: role of plasma esterases in drug release. Aaps Journal 11(1): 120-122
Lu, X.; Howard, M.D.; Mazik, M.; Eldridge, J.; Rinehart, J.J.; Jay, M.; Leggas, M. 2008: Nanoparticles containing anti-inflammatory agents as chemotherapy adjuvants: optimization and in vitro characterization. Aaps Journal 10(1): 133-140
Guo, S.; Huang, L. 2014: Nanoparticles containing insoluble drug for cancer therapy. Biotechnology Advances 32(4): 778-788
Pandya, S.; Verma, R.K.; Misra, A. 2011: Nanoparticles containing nitric oxide donor with antileishmanial agent for synergistic effect against visceral leishmaniasis. Journal of Biomedical Nanotechnology 7(1): 213-215
Accardo, A.; Morisco, A.; Gianolio, E.; Tesauro, D.; Mangiapia, G.; Radulescu, A.; Brandt, A.; Morelli, G. 2011: Nanoparticles containing octreotide peptides and gadolinium complexes for MRI applications. Journal of Peptide Science: An Official Publication of the European Peptide Society 17(2): 154-162
Eszterhas, S.K.; Ilonzo, N.O.; Crozier, J.E.; Celaj, S.; Howell, A.L. 2011: Nanoparticles containing siRNA to silence CD4 and CCR5 reduce expression of these receptors and inhibit HIV-1 infection in human female reproductive tract tissue explants. Infectious Disease Reports 3(2): E11
Stanwix, H. 2012: Nanoparticles could have a bright future in cancer cell labeling. Nanomedicine 7(1): 13-14
Potticary, J. 2013: Nanoparticles deliver a sting to HIV‑1 infectivity. Nanomedicine 8(5): 684-685
Skaper, S.D. 2010: Nanoparticles deliver the goods. Cns and Neurological Disorders Drug Targets 9(1): 1
Fang, R.Hongbo.; Hu, C-Ming.Jack.; Zhang, L. 2012: Nanoparticles disguised as red blood cells to evade the immune system. Expert Opinion on Biological Therapy 12(4): 385-389
Watkinson, A.C.; Bunge, A.L.; Hadgraft, J.; Lane, M.E. 2013: Nanoparticles do not penetrate human skin--a theoretical perspective. Pharmaceutical Research 30(8): 1943-1946
Kurosaki, T.; Morishita, T.; Kodama, Y.; Sato, K.; Nakagawa, H.; Higuchi, N.; Nakamura, T.; Hamamoto, T.; Sasaki, H.; Kitahara, T. 2011: Nanoparticles electrostatically coated with folic acid for effective gene therapy. Molecular Pharmaceutics 8(3): 913-919
Lv, S.; Wang, J.; Dou, S.; Yang, X.; Ni, X.; Sun, R.; Tian, Z.; Wei, H. 2014: Nanoparticles encapsulating hepatitis B virus cytosine-phosphate-guanosine induce therapeutic immunity against HBV infection. Hepatology 59(2): 385-394
Yanasarn, N.; Sloat, B.R.; Cui, Z. 2009: Nanoparticles engineered from lecithin-in-water emulsions as a potential delivery system for docetaxel. International Journal of Pharmaceutics 379(1): 174-180
Voltan, R.; Secchiero, P.; Ruozi, B.; Forni, F.; Agostinis, C.; Caruso, L.; Vandelli, M.Angela.; Zauli, G. 2013: Nanoparticles engineered with rituximab and loaded with Nutlin-3 show promising therapeutic activity in B-leukemic xenografts. Clinical Cancer Research: An Official Journal of the American Association for Cancer Research 19(14): 3871-3880
Abdel-Mottaleb, M.M.A.; Moulari, B.; Beduneau, A.; Pellequer, Y.; Lamprecht, A. 2012: Nanoparticles enhance therapeutic outcome in inflamed skin therapy. European Journal of Pharmaceutics and Biopharmaceutics: Official Journal of Arbeitsgemeinschaft für Pharmazeutische Verfahrenstechnik E.V 82(1): 151-157
Li, S-Dar.; Huang, L. 2009: Nanoparticles evading the reticuloendothelial system: role of the supported bilayer. Biochimica et Biophysica Acta 1788(10): 2259-2266
Lee, Y-Hsuan.; Wu, B.; Zhuang, W-Qin.; Chen, D-Ren.; Tang, Y.J. 2011: Nanoparticles facilitate gene delivery to microorganisms via an electrospray process. Journal of Microbiological Methods 84(2): 228-233
Chen, H.; Zhen, Z.; Todd, T.; Chu, P.K.; Xie, J. 2013: Nanoparticles for Improving Cancer Diagnosis. Materials Science and Engineering. R Reports: a Review Journal 74(3): 35-69
Dinarvand, R.; Cesar de Morais, P.; D'Emanuele, A. 2012: Nanoparticles for Targeted Delivery of Active Agents against Tumor Cells. Journal of Drug Delivery 2012: 528123
Zhang, S.; Zhou, J.; Hu, Z.; Nair, A.; Tang, L. 2008: Nanoparticles for Uveal Melanoma Treatment. Proceedings of the .. IEEE Conference on Nanotechnology. IEEE Conference on Nanotechnology 2008: 822-825
Thurn, K.Ted.; Brown, E.; Wu, A.; Vogt, S.; Lai, B.; Maser, Jörg.; Paunesku, T.; Woloschak, G.E. 2007: Nanoparticles for applications in cellular imaging. Nanoscale Research Letters 2(9): 430-441
Nune, S.K.; Gunda, P.; Thallapally, P.K.; Lin, Y-Ying.; Forrest, M.Laird.; Berkland, C.J. 2009: Nanoparticles for biomedical imaging. Expert Opinion on Drug Delivery 6(11): 1175-1194
Choi, H.Soo.; Frangioni, J.V. 2010: Nanoparticles for biomedical imaging: fundamentals of clinical translation. Molecular Imaging 9(6): 291-310
Andrieux, K.; Couvreur, P. 2012: Nanoparticles for brain delivery of drugs or contrast agents. Application to Alzheimer's disease. Biologie Aujourd'hui 206(3): 185-190
Chapman, S.; Dobrovolskaia, M.; Farahani, K.; Goodwin, A.; Joshi, A.; Lee, H.; Meade, T.; Pomper, M.; Ptak, K.; Rao, J.; Singh, R.; Sridhar, S.; Stern, S.; Wang, A.; Weaver, J.B.; Woloschak, G.; Yang, L. 2013: Nanoparticles for cancer imaging: The good, the bad, and the promise. Nano Today 8(5): 454-460
Tietze, R.; Lyer, S.; Dürr, S.; Alexiou, C. 2012: Nanoparticles for cancer therapy using magnetic forces. Nanomedicine 7(3): 447-457
Wang, Z.; Wang, D.; Wang, Y. 2017: Cigarette Smoking and Adipose Tissue: the Emerging Role in Progression of Atherosclerosis. Mediators of Inflammation 2017: 3102737
Lu, W. 2012: Nanoparticles for cancer treatment. Medicine and Health Rhode Island 95(9): 294-295
Xia, Y.; Yang, H.; Campbell, C.T. 2013: Nanoparticles for catalysis. Accounts of Chemical Research 46(8): 1671-1672
Bhirde, A.; Xie, J.; Swierczewska, M.; Chen, X. 2011: Nanoparticles for cell labeling. Nanoscale 3(1): 142-153
Ma, L.; Kohli, M.; Smith, A. 2013: Nanoparticles for combination drug therapy. Acs Nano 7(11): 9518-9525
Lucignani, G. 2009: Nanoparticles for concurrent multimodality imaging and therapy: the dawn of new theragnostic synergies. European Journal of Nuclear Medicine and Molecular Imaging 36(5): 869-874
Giorgi, R.; Ambrosi, M.; Toccafondi, N.; Baglioni, P. 2010: Nanoparticles for cultural heritage conservation: calcium and barium hydroxide nanoparticles for wall painting consolidation. Chemistry 16(31): 9374-9382
Vijayaraghavalu, S.; Raghavan, D.; Labhasetwar, V. 2007: Nanoparticles for delivery of chemotherapeutic agents to tumors. Current Opinion in Investigational Drugs 8(6): 477-484
Earl, J.S.; Wood, D.J.; Milne, S.J. 2009: Nanoparticles for dentine tubule infiltration: an in vitro study. Journal of Nanoscience and Nanotechnology 9(11): 6668-6674
Agasti, S.S.; Rana, S.; Park, M-Hwan.; Kim, C.Kyu.; You, C-Cheng.; Rotello, V.M. 2010: Nanoparticles for detection and diagnosis. Advanced Drug Delivery Reviews 62(3): 316-328
Mistry, A.; Stolnik, S.; Illum, L. 2009: Nanoparticles for direct nose-to-brain delivery of drugs. International Journal of Pharmaceutics 379(1): 146-157
Haley, B.; Frenkel, E. 2008: Nanoparticles for drug delivery in cancer treatment. Urologic Oncology 26(1): 57-64
Cao, Z.; Yu, Q.; Xue, H.; Cheng, G.; Jiang, S. 2010: Nanoparticles for drug delivery prepared from amphiphilic PLGA zwitterionic block copolymers with sharp contrast in polarity between two blocks. Angewandte Chemie 49(22): 3771-3776
Sung, J.C.; Pulliam, B.L.; Edwards, D.A. 2007: Nanoparticles for drug delivery to the lungs. Trends in Biotechnology 25(12): 563-570
Akita, H.; Kogure, K.; Moriguchi, R.; Nakamura, Y.; Higashi, T.; Nakamura, T.; Serada, S.; Fujimoto, M.; Naka, T.; Futaki, S.; Harashima, H. 2010: Nanoparticles for ex vivo siRNA delivery to dendritic cells for cancer vaccines: programmed endosomal escape and dissociation. Journal of Controlled Release: Official Journal of the Controlled Release Society 143(3): 311-317
Moret, S.; Bécue, A.; Champod, C. 2014: Nanoparticles for fingermark detection: an insight into the reaction mechanism. Nanotechnology 25(42): 425502
Tian, H.; Chen, J.; Chen, X. 2013: Nanoparticles for gene delivery. Small 9(12): 2034-2044
Green, J.J.; Zhou, B.Y.; Mitalipova, M.M.; Beard, C.; Langer, R.; Jaenisch, R.; Anderson, D.G. 2008: Nanoparticles for gene transfer to human embryonic stem cell colonies. Nano Letters 8(10): 3126-3130
Schauermann, S.; Nilius, N.; Shaikhutdinov, S.; Freund, H-Joachim. 2013: Nanoparticles for heterogeneous catalysis: new mechanistic insights. Accounts of Chemical Research 46(8): 1673-1681
Maestro, L.Martinez.; Rodriguez, E.Martín.; Vetrone, F.; Naccache, R.; Ramirez, H.Loro.; Jaque, D.; Capobianco, J.A.; Solé, Jé.García. 2010: Nanoparticles for highly efficient multiphoton fluorescence bioimaging. Optics Express 18(23): 23544-23553
Kasuya, T.; Kuroda, S'ichi. 2009: Nanoparticles for human liver-specific drug and gene delivery systems: in vitro and in vivo advances. Expert Opinion on Drug Delivery 6(1): 39-52
Verma, J.; Lal, S.; Van Noorden, C.J.F. 2014: Nanoparticles for hyperthermic therapy: synthesis strategies and applications in glioblastoma. International Journal of Nanomedicine 9: 2863-2877
Meyers, J.D.; Doane, T.; Burda, C.; Basilion, J.P. 2013: Nanoparticles for imaging and treating brain cancer. Nanomedicine 8(1): 123-143
Labhasetwar, V.; Zborowski, M.; Abramson, A.R.; Basilion, J.P. 2009: Nanoparticles for imaging, diagnosis, and therapeutics. Molecular Pharmaceutics 6(5): 1261-1262
Bogart, L.K.; Pourroy, G.; Murphy, C.J.; Puntes, V.; Pellegrino, T.; Rosenblum, D.; Peer, D.; Lévy, Rël. 2014: Nanoparticles for imaging, sensing, and therapeutic intervention. Acs Nano 8(4): 3107-3122
Kiessling, F.; Mertens, M.E.; Grimm, J.; Lammers, T. 2014: Nanoparticles for imaging: top or flop?. Radiology 273(1): 10-28
Chithrani, D.B. 2010: Nanoparticles for improved therapeutics and imaging in cancer therapy. Recent Patents on Nanotechnology 4(3): 171-180
Paulo, C.S.O.; Pires das Neves, R.; Ferreira, L.S. 2011: Nanoparticles for intracellular-targeted drug delivery. Nanotechnology 22(49): 494002
Holpuch, A.S.; Hummel, G.J.; Tong, M.; Seghi, G.A.; Pei, P.; Ma, P.; Mumper, R.J.; Mallery, S.R. 2010: Nanoparticles for local drug delivery to the oral mucosa: proof of principle studies. Pharmaceutical Research 27(7): 1224-1236
Sylvester, A.; Sivaraman, B.; Deb, P.; Ramamurthi, A. 2013: Nanoparticles for localized delivery of hyaluronan oligomers towards regenerative repair of elastic matrix. Acta Biomaterialia 9(12): 9292-9302
Minchin, R.F.; Martin, D.J. 2010: Nanoparticles for molecular imaging--an overview. Endocrinology 151(2): 474-481
Key, J.; Leary, J.F. 2014: Nanoparticles for multimodal in vivo imaging in nanomedicine. International Journal of Nanomedicine 9: 711-726
Wang, L.; O'Donoghue, M.B.; Tan, W. 2006: Nanoparticles for multiplex diagnostics and imaging. Nanomedicine 1(4): 413-426
Csaba, N.; Garcia-Fuentes, M.; Alonso, M.Jose. 2009: Nanoparticles for nasal vaccination. Advanced Drug Delivery Reviews 61(2): 140-157
Douma, K.; Prinzen, L.; Slaaf, D.W.; Reutelingsperger, C.P.M.; Biessen, E.A.L.; Hackeng, T.M.; Post, M.J.; van Zandvoort, M.A.M.J. 2009: Nanoparticles for optical molecular imaging of atherosclerosis. Small 5(5): 544-557
Reul, R.; Renette, T.; Bege, N.; Kissel, T. 2011: Nanoparticles for paclitaxel delivery: a comparative study of different types of dendritic polyesters and their degradation behavior. International Journal of Pharmaceutics 407(1-2): 190-196
Yang, X.; Stein, E.W.; Ashkenazi, S.; Wang, L.V. 2009: Nanoparticles for photoacoustic imaging. Wiley Interdisciplinary Reviews. Nanomedicine and Nanobiotechnology 1(4): 360-368
Jaque, D.; Martínez Maestro, L.; del Rosal, B.; Haro-Gonzalez, P.; Benayas, A.; Plaza, J.L.; Martín Rodríguez, E.; García Solé, J. 2014: Nanoparticles for photothermal therapies. Nanoscale 6(16): 9494-9530
Li, X.; Rotello, V.M. 2011: Nanoparticles for rapid detection of microbial threats. Nanomedicine 6(8): 1295-1296
Conley, S.M.; Naash, M.I. 2010: Nanoparticles for retinal gene therapy. Progress in Retinal and Eye Research 29(5): 376-397
Küchler, S.; Radowski, M.R.; Blaschke, T.; Dathe, M.; Plendl, J.; Haag, R.; Schäfer-Korting, M.; Kramer, K.D. 2009: Nanoparticles for skin penetration enhancement--a comparison of a dendritic core-multishell-nanotransporter and solid lipid nanoparticles. European Journal of Pharmaceutics and Biopharmaceutics: Official Journal of Arbeitsgemeinschaft für Pharmazeutische Verfahrenstechnik E.V 71(2): 243-250
Pérez-López, B.; Merkoçi, A. 2011: Nanoparticles for the development of improved (bio)sensing systems. Analytical and Bioanalytical Chemistry 399(4): 1577-1590
Quintana, F.J. 2013: Nanoparticles for the induction of antigen-specific Tregs. ImmunoTherapy 5(5): 437-440
Day, E.S.; Morton, J.G.; West, J.L. 2009: Nanoparticles for thermal cancer therapy. Journal of Biomechanical Engineering 131(7): 074001
James, C.David. 2012: Nanoparticles for treating brain tumors: unlimited possibilities. Neuro-Oncology 14(4): 389
Moni, S.S.; Safhi, M.M.; Barik, B.B. 2013: Nanoparticles for triggering and regulation of immune response of vaccines: perspective and prospective. Current Pharmaceutical Biotechnology 14(15): 1242-1249
Yeo, Y.; Xu, P. 2009: Nanoparticles for tumor-specific intracellular drug delivery. Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference 2009: 2403-2405
Martin, D.T.; Hoimes, C.J.; Kaimakliotis, H.Z.; Cheng, C.J.; Zhang, K.; Liu, J.; Wheeler, M.A.; Kelly, W.Kevin.; Tew, G.N.; Saltzman, W.Mark.; Weiss, R.M. 2013: Nanoparticles for urothelium penetration and delivery of the histone deacetylase inhibitor belinostat for treatment of bladder cancer. Nanomedicine: Nanotechnology Biology and Medicine 9(8): 1124-1134
Michailova, V.; Berlinova, I.; Iliev, P.; Ivanov, L.; Titeva, S.; Momekov, G.; Dimitrov, I. 2010: Nanoparticles formed from PNIPAM-g-PEO copolymers in the presence of indomethacin. International Journal of Pharmaceutics 384(1-2): 154-164
Liu, L.; Li, X.; Hou, S.; Xue, Y.; Yao, Y.; Ma, Y.; Feng, X.; He, S.; Lu, Y.; Wang, Y.; Zeng, X. 2009: Nanoparticles from block copolymer encapsulating Re(phen) complexes as bifunctional agents for cell imaging and gene transfection. Chemical Communications 2009(44): 6759-6761
Murgia, S.; Falchi, A.M.; Mano, M.; Lampis, S.; Angius, R.; Carnerup, A.M.; Schmidt, J.; Diaz, G.; Giacca, M.; Talmon, Y.; Monduzzi, M. 2010: Nanoparticles from lipid-based liquid crystals: emulsifier influence on morphology and cytotoxicity. Journal of Physical Chemistry. B 114(10): 3518-3525
Khatri, M.; Bello, D.; Gaines, P.; Martin, J.; Pal, A.K.; Gore, R.; Woskie, S. 2013: Nanoparticles from photocopiers induce oxidative stress and upper respiratory tract inflammation in healthy volunteers. Nanotoxicology 7(5): 1014-1027
Wurm, F.R.; Weiss, C.K. 2014: Nanoparticles from renewable polymers. Frontiers in Chemistry 2: 49
Klajn, R.; Stoddart, J.Fraser.; Grzybowski, B.A. 2010: Nanoparticles functionalised with reversible molecular and supramolecular switches. Chemical Society Reviews 39(6): 2203-2237
Wang, B.; Lv, L.; Wang, Z.; Zhao, Y.; Wu, L.; Fang, X.; Xu, Q.; Xin, H. 2014: Nanoparticles functionalized with Pep-1 as potential glioma targeting delivery system via interleukin 13 receptor α2-mediated endocytosis. Biomaterials 35(22): 5897-5907
Vigor, K.L.; Kyrtatos, P.G.; Minogue, S.; Al-Jamal, K.T.; Kogelberg, H.; Tolner, B.; Kostarelos, K.; Begent, R.H.; Pankhurst, Q.A.; Lythgoe, M.F.; Chester, K.A. 2010: Nanoparticles functionalized with recombinant single chain Fv antibody fragments (scFv) for the magnetic resonance imaging of cancer cells. Biomaterials 31(6): 1307-1315
Zheng, H.; Li, S.; Pu, Y.; Lai, Y.; He, B.; Gu, Z. 2014: Nanoparticles generated by PEG-Chrysin conjugates for efficient anticancer drug delivery. European Journal of Pharmaceutics and Biopharmaceutics: Official Journal of Arbeitsgemeinschaft für Pharmazeutische Verfahrenstechnik E.V 87(3): 454-460
Hogan, N.J.; Urban, A.S.; Ayala-Orozco, C.; Pimpinelli, A.; Nordlander, P.; Halas, N.J. 2014: Nanoparticles heat through light localization. Nano Letters 14(8): 4640-4645
Thomsen, S.; Pearce, J.A.; Giustini, A.; Hoopes, P.Jack. 2013: Nanoparticles in Medicine: Selected Observations and Experimental Caveats. ProceedingsofSpie--theInternationalSocietyforOpticalEngineering 8584: 858402
Sashuk, V.; Winkler, K.; Żywociński, A.; Wojciechowski, T.; Górecka, E.; Fiałkowski, M. 2013: Nanoparticles in a capillary trap: dynamic self-assembly at fluid interfaces. Acs Nano 7(10): 8833-8839
Delay, M.; Frimmel, F.H. 2012: Nanoparticles in aquatic systems. Analytical and Bioanalytical Chemistry 402(2): 583-592
Stark, W.J. 2011: Nanoparticles in biological systems. Angewandte Chemie 50(6): 1242-1258
Lico, C.; Schoubben, A.; Baschieri, S.; Blasi, P.; Santi, L. 2013: Nanoparticles in biomedicine: new insights from plant viruses. Current Medicinal Chemistry 20(28): 3471-3487
Banerjee, D.; Sengupta, S. 2011: Nanoparticles in cancer chemotherapy. Progress in Molecular Biology and Translational Science 104: 489-507
van Dijk, W.D.; Gopal, S.; Scheepers, P.T.J. 2011: Nanoparticles in cigarette smoke; real-time undiluted measurements by a scanning mobility particle sizer. Analytical and Bioanalytical Chemistry 399(10): 3573-3578
Papakostas, D.; Rancan, F.; Sterry, W.; Blume-Peytavi, U.; Vogt, A. 2011: Nanoparticles in dermatology. Archives of Dermatological Research 303(8): 533-550
Borm, P.J.A.; Müller-Schulte, D. 2006: Nanoparticles in drug delivery and environmental exposure: same size, same risks?. Nanomedicine 1(2): 235-249
Cooper, D.L.; Conder, C.M.; Harirforoosh, S. 2014: Nanoparticles in drug delivery: mechanism of action, formulation and clinical application towards reduction in drug-associated nephrotoxicity. Expert Opinion on Drug Delivery 11(10): 1661-1680
Couvreur, P. 2013: Nanoparticles in drug delivery: past, present and future. Advanced Drug Delivery Reviews 65(1): 21-23
Darzi, A. 2014: Electronic records are vital. Health Service Journal 124(6404): 24
Liu, C.; Zhang, N. 2011: Nanoparticles in gene therapy principles, prospects, and challenges. Progress in Molecular Biology and Translational Science 104: 509-562
Stamatoiu, O.; Mirzaei, J.; Feng, X.; Hegmann, T. 2012: Nanoparticles in liquid crystals and liquid crystalline nanoparticles. Topics in Current Chemistry 318: 331-393
Zamborini, F.P.; Bao, L.; Dasari, R. 2012: Nanoparticles in measurement science. Analytical Chemistry 84(2): 541-576
Berciano-Guerrero, M.A.; Montesa-Pino, A.; Castaneda-Penalvo, G.; Munoz-Fernandez, L.; Rodriguez-Flores, J. 2014: Nanoparticles in melanoma. Current Medicinal Chemistry 21(32): 3701-3716
Murthy, S.K. 2007: Nanoparticles in modern medicine: state of the art and future challenges. International Journal of Nanomedicine 2(2): 129-141
Baptista, P.V.; Doria, Gçalo.; Quaresma, P.; Cavadas, M.; Neves, C.S.; Gomes, Iês.; Eaton, P.; Pereira, Eália.; Franco, R. 2011: Nanoparticles in molecular diagnostics. Progress in Molecular Biology and Translational Science 104: 427-488
Hung, F.R.; Gettelfinger, B.T.; Koenig, G.M.; Abbott, N.L.; de Pablo, J.J. 2007: Nanoparticles in nematic liquid crystals: interactions with nanochannels. Journal of Chemical Physics 127(12): 124702
Borzabadi-Farahani, A.; Borzabadi, E.; Lynch, E. 2014: Nanoparticles in orthodontics, a review of antimicrobial and anti-caries applications. Acta Odontologica Scandinavica 72(6): 413-417
Chatterjee, D.Kumar.; Fong, L.Shan.; Zhang, Y. 2008: Nanoparticles in photodynamic therapy: an emerging paradigm. Advanced Drug Delivery Reviews 60(15): 1627-1637
Yandrapu, S.K.; Upadhyay, A.K.; Petrash, J.Mark.; Kompella, U.B. 2013: Nanoparticles in porous microparticles prepared by supercritical infusion and pressure quench technology for sustained delivery of bevacizumab. Molecular Pharmaceutics 10(12): 4676-4686
Koh, D-Mu.; Brown, G.; Collins, D.J. 2009: Nanoparticles in rectal cancer imaging. Cancer Biomarkers: Section a of Disease Markers 5(2): 89-98
Zaman, M.; Ahmad, E.; Qadeer, A.; Rabbani, G.; Khan, R.Hasan. 2014: Nanoparticles in relation to peptide and protein aggregation. International Journal of Nanomedicine 9: 899-912
Kätelhön, E.; Compton, R.G. 2014: Nanoparticles in sensing applications: on what timescale do analyte species adsorb on the particle surface?. Analyst 139(10): 2411-2415
Johnson, L.; Charles-Edwards, G.; Douek, M. 2010: Nanoparticles in sentinel lymph node assessment in breast cancer. Cancers 2(4): 1884-1894
Ravizzini, G.; Turkbey, B.; Barrett, T.; Kobayashi, H.; Choyke, P.L. 2009: Nanoparticles in sentinel lymph node mapping. Wiley Interdisciplinary Reviews. Nanomedicine and Nanobiotechnology 1(6): 610-623
Rosenholm, J.M.; Mamaeva, V.; Sahlgren, C.; Lindén, M. 2012: Nanoparticles in targeted cancer therapy: mesoporous silica nanoparticles entering preclinical development stage. Nanomedicine 7(1): 111-120
Kumar, P.; Kumar, A.; Lead, J.R. 2012: Nanoparticles in the Indian environment: known, unknowns and awareness. Environmental Science and Technology 46(13): 7071-7072
Gunawardena, S. 2013: Nanoparticles in the brain: a potential therapeutic system targeted to an early defect observed in many neurodegenerative diseases. Pharmaceutical Research 30(10): 2459-2474
Krysanov, E.Iu.; Pavlov, D.S.; Demidova, T.B.; Dgebuadze, I.Iu. 2010: Nanoparticles in the environment and their effect on hydrobionts. Izvestiia Akademii Nauk. Seriia Biologicheskaia 2010(4): 478-485
Kim, H-A.; Choi, Y.Jin.; Kim, K-Woong.; Lee, B-Tae.; Ranville, J.F. 2012: Nanoparticles in the environment: stability and toxicity. Reviews on Environmental Health 27(4): 175-179
Zhou, H-Yan.; Hao, J-Long.; Wang, S.; Zheng, Y.; Zhang, W-Song. 2013: Nanoparticles in the ocular drug delivery. International Journal of Ophthalmology 6(3): 390-396
Kanwar, J.R.; Sun, X.; Punj, V.; Sriramoju, B.; Mohan, R.R.; Zhou, S-Feng.; Chauhan, A.; Kanwar, R.K. 2012: Nanoparticles in the treatment and diagnosis of neurological disorders: untamed dragon with fire power to heal. Nanomedicine: Nanotechnology Biology and Medicine 8(4): 399-414
Jo, D.Hyun.; Kim, J.Hyoung.; Lee, T.Geol.; Kim, J.Hun. 2013: Nanoparticles in the treatment of angiogenesis-related blindness. Journal of Ocular Pharmacology and Therapeutics: the Official Journal of the Association for Ocular Pharmacology and Therapeutics 29(2): 135-142
Hirano, M.; Dozono, H. 2013: Nanoparticles in the zirconia-europium niobate system via hydrothermal route. Journal of Nanoscience and Nanotechnology 13(10): 6721-6729
Cui, F.; He, C.; Yin, L.; Qian, F.; He, M.; Tang, C.; Yin, C. 2007: Nanoparticles incorporated in bilaminated films: a smart drug delivery system for oral formulations. Biomacromolecules 8(9): 2845-2850
Chang, C-Hung.; Lin, Y-Hsin.; Yeh, C-Lin.; Chen, Y-Chi.; Chiou, S-Fen.; Hsu, Y-Man.; Chen, Y-Sheng.; Wang, C-Chung. 2010: Nanoparticles incorporated in pH-sensitive hydrogels as amoxicillin delivery for eradication of Helicobacter pylori. Biomacromolecules 11(1): 133-142
Gramowski, A.; Flossdorf, J.; Bhattacharya, K.; Jonas, L.; Lantow, M.; Rahman, Q.; Schiffmann, D.; Weiss, D.G.; Dopp, E. 2010: Nanoparticles induce changes of the electrical activity of neuronal networks on microelectrode array neurochips. Environmental Health Perspectives 118(10): 1363-1369
Guidetti, G.F.; Consonni, A.; Cipolla, L.; Mustarelli, P.; Balduini, C.; Torti, M. 2012: Nanoparticles induce platelet activation in vitro through stimulation of canonical signalling pathways. Nanomedicine: Nanotechnology Biology and Medicine 8(8): 1329-1336
Wang, R. 2013: Nanoparticles influence droplet formation in a T-shaped microfluidic. Journal of Nanoparticle Research: An Interdisciplinary Forum for Nanoscale Science and Technology 15: 2128
Li, K.; Zhao, X.; K Hammer, B.; Du, S.; Chen, Y. 2013: Nanoparticles inhibit DNA replication by binding to DNA: modeling and experimental validation. Acs Nano 7(11): 9664-9674
Suštar, V.; Bedina-Zavec, A.; Stukelj, R.; Frank, M.; Bobojević, G.; Janša, R.; Ogorevc, E.; Kruljc, P.; Mam, K.; Simunič, Bštjan.; Manček-Keber, M.; Jerala, R.; Rozman, Bž.; Veranič, P.; Hägerstrand, H.; Kralj-Iglič, V. 2011: Nanoparticles isolated from blood: a reflection of vesiculability of blood cells during the isolation process. International Journal of Nanomedicine 6: 2737-2748
Liu, Y.; Welch, M.J. 2012: Nanoparticles labeled with positron emitting nuclides: advantages, methods, and applications. Bioconjugate Chemistry 23(4): 671-682
Gupta, H.; Aqil, M.; Khar, R.K.; Ali, A.; Bhatnagar, A.; Mittal, G. 2013: Nanoparticles laden in situ gel for sustained ocular drug delivery. Journal of Pharmacy and Bioallied Sciences 5(2): 162-165
Gupta, H.; Aqil, M.; Khar, R.K.; Ali, A.; Bhatnagar, A.; Mittal, G. 2013: Nanoparticles laden in situ gel of levofloxacin for enhanced ocular retention. Drug Delivery 20(7): 306-309
Kumar, D.; Jain, N.; Gulati, N.; Nagaich, U. 2013: Nanoparticles laden in situ gelling system for ocular drug targeting. Journal of Advanced Pharmaceutical Technology and Research 4(1): 9-17
Voltan, R.; Secchiero, P.; Ruozi, B.; Caruso, L.; Forni, F.; Palomba, M.; Zauli, G.; Vandelli, M.A. 2013: Nanoparticles loaded with Nutlin-3 display cytotoxicity towards p53(wild-type) JVM-2 but not towards p53(mutated) BJAB leukemic cells. Current Medicinal Chemistry 20(21): 2712-2722
Santander-Ortega, M.J.; Stauner, T.; Loretz, B.; Ortega-Vinuesa, J.L.; Bastos-González, D.; Wenz, G.; Schaefer, U.F.; Lehr, C.M. 2010: Nanoparticles made from novel starch derivatives for transdermal drug delivery. Journal of Controlled Release: Official Journal of the Controlled Release Society 141(1): 85-92
Portilla-Arias, Jé.A.; Camargo, B.; García-Alvarez, M.; de Ilarduya, A.Martínez.; Muñoz-Guerra, Sán. 2009: Nanoparticles made of microbial poly(gamma-glutamate)s for encapsulation and delivery of drugs and proteins. Journal of Biomaterials Science. Polymer Edition 20(7-8): 1065-1079
Ankola, D.D.; Battisti, A.; Solaro, R.; Kumar, M.N.V.Ravi. 2010: Nanoparticles made of multi-block copolymer of lactic acid and ethylene glycol containing periodic side-chain carboxyl groups for oral delivery of cyclosporine A. Journal of the Royal Society Interface 7 Suppl. 4: S475-S481
Chen, K.Loon.; Bothun, G.D. 2014: Nanoparticles meet cell membranes: probing nonspecific interactions using model membranes. Environmental Science and Technology 48(2): 873-880
Zhang, C-Ling.; Yu, S-Hong. 2014: Nanoparticles meet electrospinning: recent advances and future prospects. Chemical Society Reviews 43(13): 4423-4448
Niu, Y.; Yu, M.; Hartono, S.B.; Yang, J.; Xu, H.; Zhang, H.; Zhang, J.; Zou, J.; Dexter, A.; Gu, W.; Yu, C. 2013: Nanoparticles mimicking viral surface topography for enhanced cellular delivery. Advanced Materials 25(43): 6233-6237
Jiang, X.; Xin, H.; Ren, Q.; Gu, J.; Zhu, L.; Du, F.; Feng, C.; Xie, Y.; Sha, X.; Fang, X. 2014: Nanoparticles of 2-deoxy-D-glucose functionalized poly(ethylene glycol)-co-poly(trimethylene carbonate) for dual-targeted drug delivery in glioma treatment. Biomaterials 35(1): 518-529
Peng, Z.; Sun, Y.; Liu, X.; Tong, Z. 2009: Nanoparticles of Block Ionomer Complexes from Double Hydrophilic Poly(acrylic acid)-b-poly(ethylene oxide)-b-poly(acrylic acid) Triblock Copolymer and Oppositely Charged Surfactant. Nanoscale Research Letters 5(1): 89-95
Ordoñez-Regil, E.; Granados-Correa, F.; Ordoñez-Regil, E.; Almazán-Torres, Mía.Guadalupe. 2015: Nanoparticles of KFeP2O7 implanted on silica gel beads for Cd2+ ion adsorption. Environmental Technology 36(1-4): 188-197
Li, D.; Komarneni, S. 2008: Nanoparticles of Pd: synthesis by microwave-solvothermal method and optical properties. Journal of Nanoscience and Nanotechnology 8(8): 3930-3935
Ma, Y.; Zheng, Y.; Liu, K.; Tian, G.; Tian, Y.; Xu, L.; Yan, F.; Huang, L.; Mei, L. 2010: Nanoparticles of Poly(Lactide-Co-Glycolide)-d-a-Tocopheryl Polyethylene Glycol 1000 Succinate Random Copolymer for Cancer Treatment. Nanoscale Research Letters 5(7): 1161-1169
Sreenivasulu, P.; Pendem, C.; Viswanadham, N. 2014: Nanoparticles of ZrPO4 for green catalytic applications. Nanoscale 6(24): 14898-14902
Forestier, T.; Kaiba, A.; Pechev, S.; Denux, D.; Guionneau, P.; Etrillard, Céline.; Daro, N.; Freysz, E.; Létard, J-François. 2009: Nanoparticles of [Fe(NH2-trz)3]Br2.3H2O (NH2-trz=2-amino-1,2,4-triazole) prepared by the reverse micelle technique: influence of particle and coherent domain sizes on spin-crossover properties. Chemistry 15(25): 6122-6130
Guildford, A.L.; Poletti, T.; Osbourne, L.H.; Di Cerbo, A.; Gatti, A.M.; Santin, M. 2009: Nanoparticles of a different source induce different patterns of activation in key biochemical and cellular components of the host response. Journal of the Royal Society Interface 6(41): 1213-1221
Nishiyabu, R.; Hashimoto, N.; Cho, T.; Watanabe, K.; Yasunaga, T.; Endo, A.; Kaneko, K.; Niidome, T.; Murata, M.; Adachi, C.; Katayama, Y.; Hashizume, M.; Kimizuka, N. 2009: Nanoparticles of adaptive supramolecular networks self-assembled from nucleotides and lanthanide ions. Journal of the American Chemical Society 131(6): 2151-2158
Banerjee, S.; Bumajdad, A.; Devi, P.Sujatha. 2011: Nanoparticles of antimony doped tin dioxide as a liquid petroleum gas sensor: effect of size on sensitivity. Nanotechnology 22(27): 275506
Feng, S-Shen. 2008: Nanoparticles of biodegradable polymers for cancer treatment. Biomaterials 29(30): 4146-4147
Grodzik, M.; Sawosz, E.; Wierzbicki, M.; Orlowski, P.; Hotowy, A.; Niemiec, T.; Szmidt, M.; Mitura, K.; Chwalibog, Aé. 2011: Nanoparticles of carbon allotropes inhibit glioblastoma multiforme angiogenesis in ovo. International Journal of Nanomedicine 6: 3041-3048
Gupta, K.; Singh, V.P.; Kurupati, R.K.; Mann, A.; Ganguli, M.; Gupta, Y.K.; Singh, Y.; Saleem, K.; Pasha, S.; Maiti, S. 2009: Nanoparticles of cationic chimeric peptide and sodium polyacrylate exhibit striking antinociception activity at lower dose. Journal of Controlled Release: Official Journal of the Controlled Release Society 134(1): 47-54
Ignjatović, N.; Ajduković, Z.; Savić, V.; Najman, S.; Mihailović, D.; Vasiljević, P.; Stojanović, Z.; Uskoković, V.; Uskoković, D. 2013: Nanoparticles of cobalt-substituted hydroxyapatite in regeneration of mandibular osteoporotic bones. Journal of Materials Science. Materials in Medicine 24(2): 343-354
Pecher, J.; Mecking, S. 2010: Nanoparticles of conjugated polymers. Chemical Reviews 110(10): 6260-6279
Yoon, J.; Kwag, J.; Shin, T.Joo.; Park, J.; Lee, Y.Man.; Lee, Y.; Park, J.; Heo, J.; Joo, C.; Park, T.Jung.; Yoo, P.J.; Kim, S.; Park, J. 2014: Nanoparticles of conjugated polymers prepared from phase-separated films of phospholipids and polymers for biomedical applications. Advanced Materials 26(26): 4559-4564
Shi, Z.; Guo, R.; Li, W.; Zhang, Y.; Xue, W.; Tang, Y.; Zhang, Y. 2014: Nanoparticles of deoxycholic acid, polyethylene glycol and folic acid-modified chitosan for targeted delivery of doxorubicin. Journal of Materials Science. Materials in Medicine 25(3): 723-731
Lanz-Landázuri, A.; Portilla-Arias, Jé.; Martínez de Ilarduya, A.; García-Alvarez, M.; Holler, E.; Ljubimova, J.; Muñoz-Guerra, Sán. 2014: Nanoparticles of esterified polymalic acid for controlled anticancer drug release. Macromolecular Bioscience 14(9): 1325-1336
Makhlof, A.; Werle, M.; Tozuka, Y.; Takeuchi, H. 2010: Nanoparticles of glycol chitosan and its thiolated derivative significantly improved the pulmonary delivery of calcitonin. International Journal of Pharmaceutics 397(1-2): 92-95
Aumelas, A.; Serrero, A.; Durand, A.; Dellacherie, E.; Leonard, M. 2007: Nanoparticles of hydrophobically modified dextrans as potential drug carrier systems. Colloids and Surfaces. B Biointerfaces 59(1): 74-80
Forestier, T.; Mornet, Séphane.; Daro, N.; Nishihara, T.; Mouri, S-ichiro.; Tanaka, K.; Fouché, O.; Freysz, E.; Létard, J-François. 2008: Nanoparticles of iron(II) spin-crossover. Chemical Communications 2008(36): 4327-4329
Liu, Y.; Pan, J.; Feng, S-Shen. 2010: Nanoparticles of lipid monolayer shell and biodegradable polymer core for controlled release of paclitaxel: effects of surfactants on particles size, characteristics and in vitro performance. International Journal of Pharmaceutics 395(1-2): 243-250
Marschall, R.; Bannat, I.; Feldhoff, A.; Wang, L.; Lu, G.Qing.Max.; Wark, M. 2009: Nanoparticles of mesoporous SO3H-functionalized Si-MCM-41 with superior proton conductivity. Small 5(7): 854-859
Vimala Rani, J.Daisy.; Kamatchi, S.; Dhathathreyan, A. 2010: Nanoparticles of nickel oxide and nickel hydroxide using lyophilisomes of fibrinogen as template. Journal of Colloid and Interface Science 341(1): 48-52
Shariatinia, Z.; Asadi, E.; Tavasolinasab, V.; Gholivand, K. 2013: Nanoparticles of novel organotin(IV) complexes bearing phosphoric triamide ligands. Beilstein Journal of Nanotechnology 4: 94-102
Filho, N.Luiz.Dias.; Costa, R.Mendonça.; Marangoni, F.; Pereira, D.Souza. 2007: Nanoparticles of octakis[3-(3-amino-1,2,4-triazole)propyl]octasilsesquioxane as ligands for Cu(II), Ni(II), Cd(II), Zn(II), and Fe(III) in aqueous solution. Journal of Colloid and Interface Science 316(2): 250-259
Guhagarkar, S.A.; Malshe, V.C.; Devarajan, P.V. 2009: Nanoparticles of polyethylene sebacate: a new biodegradable polymer. Aaps Pharmscitech 10(3): 935-942
Prasad, N.K.; Gohri, V.; Bahadur, D. 2011: Nanoparticles of pure and substituted maghemites (gamma-M(x)Fe(2_x)O3 where M = Al, Cr, Mn, Zn and 0 < or = x < or = 1.3): a comparative study. Journal of Nanoscience and Nanotechnology 11(3): 2710-2716
Wang, K.; Guo, L.; Xiong, W.; Sun, L.; Zheng, Y. 2014: Nanoparticles of star-like copolymer mannitol-functionalized poly(lactide)-vitamin E TPGS for delivery of paclitaxel to prostate cancer cells. Journal of Biomaterials Applications 29(3): 329-340
Perera, V.S.; Hao, J.; Gao, M.; Gough, M.; Zavalij, P.Y.; Flask, C.; Basilion, J.P.; Huang, S.D. 2011: Nanoparticles of the novel coordination polymer KBi(H2O)2[Fe(CN)6]·H2O as a potential contrast agent for computed tomography. Inorganic Chemistry 50(17): 7910-7912
Sebakhy, K.O.; Gavrilov, M.; Valade, D.; Jia, Z.; Monteiro, M.J. 2014: Nanoparticles of well-defined 4-arm stars made using nanoreactors in water. Macromolecular Rapid Communications 35(2): 193-197
Pouretedal, H.Reza.; Norozi, A.; Keshavarz, M.Hossein.; Semnani, A. 2009: Nanoparticles of zinc sulfide doped with manganese, nickel and copper as nanophotocatalyst in the degradation of organic dyes. Journal of Hazardous Materials 162(2-3): 674-681
Van der Voet, E.; Heijungs, R.; Mulder, P.; Huele, R.; Kleijn, R.; van Oers, L. 1995: Substance flows through the economy and environment of a region : Part II: Modelling. Environmental Science and Pollution Research International 2(3): 137-144
Osminkina, L.A.; Sivakov, V.A.; Mysov, G.A.; Georgobiani, V.A.; Natashina, U.А.; Talkenberg, F.; Solovyev, V.V.; Kudryavtsev, A.A.; Timoshenko, V.Yu. 2014: Nanoparticles prepared from porous silicon nanowires for bio-imaging and sonodynamic therapy. Nanoscale Research Letters 9(1): 463
Hsu, C-King.; Liao, M-Hsiu.; Tai, Y-Tyng.; Liu, S-Hwa.; Ou, K-Liang.; Fang, H-Wei.; Lee, I-Jung.; Chen, R-Ming. 2011: Nanoparticles prepared from the water extract of Gusuibu (Drynaria fortunei J. Sm.) protects osteoblasts against insults and promotes cell maturation. International Journal of Nanomedicine 6: 1405-1413
Gueugnon, F.; Denis, I.; Pouliquen, D.; Collette, F.; Delatouche, Régis.; Héroguez, Vérie.; Grégoire, M.; Bertrand, P.; Blanquart, C. 2013: Nanoparticles produced by ring-opening metathesis polymerization using norbornenyl-poly(ethylene oxide) as a ligand-free generic platform for highly selective in vivo tumor targeting. Biomacromolecules 14(7): 2396-2402
Ashraf, S.; Qadri, S.; al-Ramadi, B.; Haik, Y. 2012: Nanoparticles rapidly assess specific IgE in plasma. Nanotechnology 23(30): 305101
Lai, S.K.; Wang, Y-Ying.; Hida, K.; Cone, R.; Hanes, J. 2010: Nanoparticles reveal that human cervicovaginal mucus is riddled with pores larger than viruses. Proceedings of the National Academy of Sciences of the United States of America 107(2): 598-603
Zhang, M.; Liu, M.; Prest, H.; Fischer, S. 2008: Nanoparticles secreted from ivy rootlets for surface climbing. Nano Letters 8(5): 1277-1280
Wang, Z.; Malik, A.B. 2013: Nanoparticles squeezing across the blood-endothelial barrier via caveolae. Therapeutic Delivery 4(2): 131-133
Tay, C.Yong.; Cai, P.; Setyawati, M.I.; Fang, W.; Tan, L.Poh.; Hong, C.H.L.; Chen, X.; Leong, D.Tai. 2014: Nanoparticles strengthen intracellular tension and retard cellular migration. Nano Letters 14(1): 83-88
Teng, Z.; Luo, Y.; Wang, Q. 2012: Nanoparticles synthesized from soy protein: preparation, characterization, and application for nutraceutical encapsulation. Journal of Agricultural and Food Chemistry 60(10): 2712-2720
Chittasupho, C.; Shannon, L.; Siahaan, T.J.; Vines, C.M.; Berkland, C. 2011: Nanoparticles targeting dendritic cell surface molecules effectively block T cell conjugation and shift response. Acs Nano 5(3): 1693-1702
Shohdy, K.S.; Alfaar, A.Samir. 2013: Nanoparticles targeting mechanisms in cancer therapy: current limitations and emerging solutions. Therapeutic Delivery 4(9): 1197-1209
Dvir, T.; Bauer, M.; Schroeder, A.; Tsui, J.H.; Anderson, D.G.; Langer, R.; Liao, R.; Kohane, D.S. 2011: Nanoparticles targeting the infarcted heart. Nano Letters 11(10): 4411-4414
Lin, K.Y.; Kwong, G.A.; Warren, A.D.; Wood, D.K.; Bhatia, S.N. 2013: Nanoparticles that sense thrombin activity as synthetic urinary biomarkers of thrombosis. Acs Nano 7(10): 9001-9009
Klajn, R.; Browne, K.P.; Soh, S.; Grzybowski, B.A. 2010: Nanoparticles that "remember" temperature. Small 6(13): 1385-1387
Bolzinger, M-Alexandrine.; Briançon, Séphanie.; Chevalier, Y. 2011: Nanoparticles through the skin: managing conflicting results of inorganic and organic particles in cosmetics and pharmaceutics. Wiley Interdisciplinary Reviews. Nanomedicine and Nanobiotechnology 3(5): 463-478
Zhang, M.; Liu, M.; Bewick, S.; Suo, Z. 2009: Nanoparticles to increase adhesive properties of biologically secreted materials for surface affixing. Journal of Biomedical Nanotechnology 5(3): 294-299
Dalby, M.J.; Lee, L.C.Y.; Yang, J.; MacIntyre, A.; McCully, M. 2013: Nanoparticles to target neural stem cell differentiation. Nanomedicine 8(11): 1743
Yah, C.Suh.; Simate, G.Simate.; Iyuke, S.Esayegbemu. 2012: Nanoparticles toxicity and their routes of exposures. Pakistan Journal of Pharmaceutical Sciences 25(2): 477-491
Demay-Drouhard, P.; Nehlig, E.; Hardouin, J.; Motte, L.; Guénin, E. 2013: Nanoparticles under the light: click functionalization by photochemical thiol-yne reaction, towards double click functionalization. Chemistry 19(26): 8388-8392
Lee, H-Mi.; Shin, D-Min.; Song, H-Moon.; Yuk, J-Min.; Lee, Z-Won.; Lee, S-Hee.; Hwang, S.Mei.; Kim, J-Man.; Lee, C-Soo.; Jo, E-Kyeong. 2009: Nanoparticles up-regulate tumor necrosis factor-alpha and CXCL8 via reactive oxygen species and mitogen-activated protein kinase activation. Toxicology and Applied Pharmacology 238(2): 160-169
Minost, A.; Delaveau, J.; Bolzinger, M-Alexandrine.; Fessi, H.; Elaissari, A. 2012: Nanoparticles via nanoprecipitation process. Recent Patents on Drug Delivery and Formulation 6(3): 250-258
Sanchez-Dominguez, C.N.; Gallardo-Blanco, H.L.; Rodriguez-Rodriguez, A.A.; Vela-Gonzalez, A.V.; Sanchez-Dominguez, M. 2014: Nanoparticles vs cancer: a multifuncional tool. Current Topics in Medicinal Chemistry 14(5): 664-675
Miao, L.; Guo, S.; Zhang, J.; Kim, W.Y.; Huang, L. 2014: Nanoparticles with Precise Ratiometric Co-Loading and Co-Delivery of Gemcitabine Monophosphate and Cisplatin for Treatment of Bladder Cancer. Advanced Functional Materials 24(42): 6601-6611
Janiak, J.; Bayati, S.; Galantini, L.; Pavel, N.V.; Schillén, K. 2012: Nanoparticles with a bicontinuous cubic internal structure formed by cationic and non-ionic surfactants and an anionic polyelectrolyte. Langmuir 28(48): 16536-16546
Qi, J.; Yao, P.; He, F.; Yu, C.; Huang, C. 2010: Nanoparticles with dextran/chitosan shell and BSA/chitosan core--doxorubicin loading and delivery. International Journal of Pharmaceutics 393(1-2): 176-184
Pu, H-Lan.; Chiang, W-Lun.; Maiti, B.; Liao, Z-Xian.; Ho, Y-Cheng.; Shim, M.Suk.; Chuang, E-Yuan.; Xia, Y.; Sung, H-Wen. 2014: Nanoparticles with dual responses to oxidative stress and reduced ph for drug release and anti-inflammatory applications. Acs Nano 8(2): 1213-1221
Zigoneanu, I.Gabriela.; Astete, C.Ernesto.; Sabliov, C.Mirela. 2008: Nanoparticles with entrapped α-tocopherol: synthesis, characterization, and controlled release. Nanotechnology 19(10): 105606
Harrisson, S.; Nicolas, J.; Maksimenko, A.; Bui, D.Trung.; Mougin, J.; Couvreur, P. 2013: Nanoparticles with in vivo anticancer activity from polymer prodrug amphiphiles prepared by living radical polymerization. Angewandte Chemie 52(6): 1678-1682
Xiao, B.; Laroui, H.; Viennois, E.; Ayyadurai, S.; Charania, M.A.; Zhang, Y.; Zhang, Z.; Baker, M.T.; Zhang, B.; Gewirtz, A.T.; Merlin, D. 2014: Nanoparticles with surface antibody against CD98 and carrying CD98 small interfering RNA reduce colitis in mice. Gastroenterology 146(5): 1289-300.E1-19
Hales, K.; Chen, Z.; Wooley, K.L.; Pochan, D.J. 2008: Nanoparticles with tunable internal structure from triblock copolymers of PAA-b-PMA-b-PS. Nano Letters 8(7): 2023-2026
Qu, S.; Zhao, L.; Yu, Z.; Xiu, Z.; Zhao, C.; Zhang, P.; Long, B.; Li, M. 2009: Nanoparticles, helical fibers, and nanoribbons of an achiral twin-tapered bi-1,3,4-oxadiazole derivative with strong fluorescence. Langmuir 25(3): 1713-1717
Seaton, A.; Tran, L.; Aitken, R.; Donaldson, K. 2010: Nanoparticles, human health hazard and regulation. Journal of the Royal Society Interface 7 Suppl. 1: S119-S129
Madl, A.K.; Plummer, L.E.; Carosino, C.; Pinkerton, K.E. 2014: Nanoparticles, lung injury, and the role of oxidant stress. Annual Review of Physiology 76: 447-465
Mohapatra, D.P.; Gassara, F.; Brar, S.K. 2011: Nanoparticles--production and role in biotransformation. Journal of Nanoscience and Nanotechnology 11(2): 899-918
Duffin, R.; Mills, N.L.; Donaldson, K. 2007: Nanoparticles-a thoracic toxicology perspective. Yonsei Medical Journal 48(4): 561-572
Liu, S-Ying.; Wei, W.; Yue, H.; Ni, D-Zhi.; Yue, Z-Guo.; Wang, S.; Fu, Q.; Wang, Y-Qi.; Ma, G-Hui.; Su, Z-Guo. 2013: Nanoparticles-based multi-adjuvant whole cell tumor vaccine for cancer immunotherapy. Biomaterials 34(33): 8291-8300
Hernández-Padrón, G.; García-Garduño, M.; Canseco, M.A.; Castaño, V.M. 2008: Nanoparticles-based phenol-formaldehyde hybrid resins. Journal of Nanoscience and Nanotechnology 8(6): 3142-3145
Merkoçi, A. 2010: Nanoparticles-based strategies for DNA, protein and cell sensors. Biosensors and Bioelectronics 26(4): 1164-1177
Chen, B.T.; Afshari, A.; Stone, S.; Jackson, M.; Schwegler-Berry, D.; Frazer, D.G.; Castranova, V.; Thomas, T.A. 2010: Nanoparticles-containing spray can aerosol: characterization, exposure assessment, and generator design. Inhalation Toxicology 22(13): 1072-1082
Teng, W-Yu.; Jeng, S-Chang.; Kuo, C-Wei.; Lin, Y-Rung.; Liao, C-Chang.; Chin, W-Kuo. 2008: Nanoparticles-doped guest-host liquid crystal displays. Optics Letters 33(15): 1663-1665
Sultana, S.; Khan, M.Rashid.; Kumar, M.; Kumar, S.; Ali, M. 2013: Nanoparticles-mediated drug delivery approaches for cancer targeting: a review. Journal of Drug Targeting 21(2): 107-125
Elbejjani, M.; Auer, R.; Dolui, S.; Jacobs, D.R.; Haight, T.; Goff, D.C.; Detre, J.A.; Davatzikos, C.; Bryan, R.N.; Launer, L.J. 2019: Cigarette smoking and cerebral blood flow in a cohort of middle-aged adults. Journal of Cerebral Blood Flow and Metabolism: Official Journal of the International Society of Cerebral Blood Flow and Metabolism 39(7): 1247-1257
Lu, Y.; Liu, J.; Mazumdar, D. 2009: Nanoparticles/Dip stick. Methods in Molecular Biology 535: 223-239
Cooper, E.R. 2010: Nanoparticles: A personal experience for formulating poorly water soluble drugs. Journal of Controlled Release: Official Journal of the Controlled Release Society 141(3): 300-302
Parveen, S.; Misra, R.; Sahoo, S.K. 2012: Nanoparticles: a boon to drug delivery, therapeutics, diagnostics and imaging. Nanomedicine: Nanotechnology Biology and Medicine 8(2): 147-166
Choksi, A.N.; Poonawalla, T.; Wilkerson, M.G. 2010: Nanoparticles: a closer look at their dermal effects. Journal of Drugs in Dermatology: Jdd 9(5): 475-481
Susa, M.; Milane, L.; Amiji, M.M.; Hornicek, F.J.; Duan, Z. 2011: Nanoparticles: a promising modality in the treatment of sarcomas. Pharmaceutical Research 28(2): 260-272
Bakand, S.; Hayes, A.; Dechsakulthorn, F. 2012: Nanoparticles: a review of particle toxicology following inhalation exposure. Inhalation Toxicology 24(2): 125-135
Adjei, I.M.; Sharma, B.; Labhasetwar, V. 2014: Nanoparticles: cellular uptake and cytotoxicity. Advances in Experimental Medicine and Biology 811: 73-91
Puri, A. 2010: Nanoparticles: crossing barriers and membrane interactions. Molecular Membrane Biology 27(7): 213-214
Vauthier, C.; Tsapis, N.; Couvreur, P. 2011: Nanoparticles: heating tumors to death?. Nanomedicine 6(1): 99-109
Marano, F.; Hussain, S.; Rodrigues-Lima, F.; Baeza-Squiban, A.; Boland, S. 2011: Nanoparticles: molecular targets and cell signalling. Archives of Toxicology 85(7): 733-741
Chekman, I.S. 2009: Nanoparticles: properties and application prospects. Ukrains'kyi Biokhimichnyi Zhurnal 81(1): 122-129
Wiesenthal, A.; Hunter, L.; Wang, S.; Wickliffe, J.; Wilkerson, M. 2011: Nanoparticles: small and mighty. International Journal of Dermatology 50(3): 247-254
Prosie, F.; Lesage, Fçois-Xavier.; Deschamps, Fédéric. 2008: Nanoparticles: structures, utilizations and health impacts. Presse Medicale 37(10): 1431-1437
Choyke, P.L. 2014: Nanoparticles: take only pictures, leave only footprints. Science Translational Medicine 6(260): 260fs44
Wheate, N.J. 2012: Nanoparticles: the future for platinum drugs or a research red herring?. Nanomedicine 7(9): 1285-1287
Bonnemain, B. 2008: Nanoparticles: the industrial viewpoint. Applications in diagnostic imaging. Annales Pharmaceutiques Francaises 66(5-6): 263-267
Bystrzejewska-Piotrowska, G.; Golimowski, J.; Urban, P.L. 2009: Nanoparticles: their potential toxicity, waste and environmental management. Waste Management 29(9): 2587-2595
Perni, S.; Prokopovich, P.; Pratten, J.; Parkin, I.P.; Wilson, M. 2011: Nanoparticles: their potential use in antibacterial photodynamic therapy. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 10(5): 712-720
Kovacic, P.; Somanathan, R. 2013: Nanoparticles: toxicity, radicals, electron transfer, and antioxidants. Methods in Molecular Biology 1028: 15-35
Ma, F.; Yuan, A.; Xu, J. 2014: Nanoparticulate Mn3O4/VGCF composite conversion-anode material with extraordinarily high capacity and excellent rate capability for lithium ion batteries. Acs Applied Materials and Interfaces 6(20): 18129-18138
Iglesias-Juez, A.; Kubacka, A.; Fernández-García, M.; Di Michiel, M.; Newton, M.A. 2011: Nanoparticulate Pd supported catalysts: size-dependent formation of Pd(I)/Pd(0) and their role in CO elimination. Journal of the American Chemical Society 133(12): 4484-4489
Engels, V.; Rachamim, A.; Dalal, S.H.; Pfaendler, S.; Geng, J.; Berenguer-Murcia, A.; Flewitt, A.J.; Wheatley, A. 2010: Nanoparticulate PdZn as a Novel Catalyst for ZnO Nanowire Growth. Nanoscale Research Letters 5(5): 904-907
Engels, V.; Jefferson, D.A.; Benaskar, F.; Thüne, P.C.; Berenguer-Murcia, A.; Johnson, B.F.G.; Wheatley, A.E.H. 2011: Nanoparticulate PdZn--pathways towards the synthetic control of nanosurface properties. Nanotechnology 22(20): 205701
Hu, K.; Berenjian, S.; Larsson, R.; Gullbo, J.; Nygren, P.; Lövgren, T.; Morein, B. 2010: Nanoparticulate Quillaja saponin induces apoptosis in human leukemia cell lines with a high therapeutic index. International Journal of Nanomedicine 5: 51-62
Ren, Y.; Liu, Z.; Pourpoint, F.éd.ér.; Armstrong, A.R.; Grey, C.P.; Bruce, P.G. 2012: Nanoparticulate TiO2(B): an anode for lithium-ion batteries. Angewandte Chemie 51(9): 2164-2167
Liu, Y.; Ai, K.; Lu, L. 2012: Nanoparticulate X-ray computed tomography contrast agents: from design validation to in vivo applications. Accounts of Chemical Research 45(10): 1817-1827
De Souza Rebouças, J.; Esparza, I.; Ferrer, M.; Sanz, M.ía.L.; Irache, J.M.; Gamazo, C. 2012: Nanoparticulate adjuvants and delivery systems for allergen immunotherapy. Journal of Biomedicine and Biotechnology 2012: 474605
Adair, J.H.; Parette, M.P.; Altinoğlu, E.I.; Kester, M. 2010: Nanoparticulate alternatives for drug delivery. Acs Nano 4(9): 4967-4970
Domingo-Espín, J.; Vazquez, E.; Ganz, J.; Conchillo, O.; García-Fruitós, E.; Cedano, J.; Unzueta, U.; Petegnief, V.ér.; Gonzalez-Montalbán, N.; Planas, A.M.; Daura, X.; Peluffo, H.; Ferrer-Miralles, N.; Villaverde, A. 2011: Nanoparticulate architecture of protein-based artificial viruses is supported by protein-DNA interactions. Nanomedicine 6(6): 1047-1061
Mulder, W.J.M.; Strijkers, G.J.; van Tilborg, G.A.F.; Cormode, D.P.; Fayad, Z.A.; Nicolay, K. 2009: Nanoparticulate assemblies of amphiphiles and diagnostically active materials for multimodality imaging. Accounts of Chemical Research 42(7): 904-914
Kadir, A.; Mokhtar, M.T.M.; Wong, T.W. 2013: Nanoparticulate assembly of mannuronic acid- and guluronic acid-rich alginate: oral insulin carrier and glucose binder. Journal of Pharmaceutical Sciences 102(12): 4353-4363
Gantar, A.; da Silva, L.P.; Oliveira, J.M.; Marques, A.P.; Correlo, V.M.; Novak, S.ša.; Reis, R.L. 2014: Nanoparticulate bioactive-glass-reinforced gellan-gum hydrogels for bone-tissue engineering. Materials Science and Engineering. C Materials for Biological Applications 43: 27-36
Reis, C.P.; Veiga, F.J.; Ribeiro, Aónio.J.; Neufeld, R.J.; Damgé, C. 2008: Nanoparticulate biopolymers deliver insulin orally eliciting pharmacological response. Journal of Pharmaceutical Sciences 97(12): 5290-5305
Sharma, K.; Kumar, K.; Mishra, N. 2016: Nanoparticulate carrier system: a novel treatment approach for hyperlipidemia. Drug Delivery 23(3): 694-709
Lopes, C.M.; Martins-Lopes, P.; Souto, E.B. 2010: Nanoparticulate carriers (NPC) for oral pharmaceutics and nutraceutics. Die Pharmazie 65(2): 75-82
Brito, L.; Amiji, M. 2007: Nanoparticulate carriers for the treatment of coronary restenosis. International Journal of Nanomedicine 2(2): 143-161
Tharkar, P.; Madani, A.U.; Lasham, A.; Shelling, A.N.; Al-Kassas, R. 2015: Nanoparticulate carriers: an emerging tool for breast cancer therapy. Journal of Drug Targeting 23(2): 97-108
Cheng, H.; Kastrup, C.J.; Ramanathan, R.; Siegwart, D.J.; Ma, M.; Bogatyrev, S.R.; Xu, Q.; Whitehead, K.A.; Langer, R.; Anderson, D.G. 2010: Nanoparticulate cellular patches for cell-mediated tumoritropic delivery. Acs Nano 4(2): 625-631
Dantelle, G.; Calderón-Villajos, R.ío.; Zaldo, C.; Cascales, C.ón.; Gacoin, T. 2014: Nanoparticulate coatings with efficient up-conversion properties. Acs Applied Materials and Interfaces 6(24): 22483-22489
Engels, V.; Benaskar, F.; Jefferson, D.A.; Johnson, B.F.G.; Wheatley, A.E.H. 2010: Nanoparticulate copper--routes towards oxidative stability. Dalton Transactions 39(28): 6496-6502
Ankola, D.D.; Wadsworth, R.M.; Ravi Kumar, M.N.V. 2011: Nanoparticulate delivery can improve peroral bioavailability of cyclosporine and match Neoral Cmax sparing the kidney from damage. Journal of Biomedical Nanotechnology 7(2): 300-307
Tomar, P.; Jain, N.; Dixit, V.K. 2013: Nanoparticulate delivery of LHRH analogue for the treatment of prostate cancer. Pharmaceutical Development and Technology 18(3): 645-652
Venkataraman, L.; Sivaraman, B.; Vaidya, P.; Ramamurthi, A. 2016: Nanoparticulate delivery of agents for induced elastogenesis in three-dimensional collagenous matrices. Journal of Tissue Engineering and Regenerative Medicine 10(12): 1041-1056
Showalter, S.L.; Huang, Y.-H.; Witkiewicz, A.; Costantino, C.L.; Yeo, C.J.; Green, J.J.; Langer, R.; Anderson, D.G.; Sawicki, J.A.; Brody, J.R. 2008: Nanoparticulate delivery of diphtheria toxin DNA effectively kills Mesothelin expressing pancreatic cancer cells. Cancer Biology and Therapy 7(10): 1584-1590
Kanthamneni, N.; Chaudhary, A.; Wang, J.; Prabhu, S. 2010: Nanoparticulate delivery of novel drug combination regimens for the chemoprevention of colon cancer. International Journal of Oncology 37(1): 177-185
Wang, Z.; Chui, W.-K.; Ho, P.C. 2011: Nanoparticulate delivery system targeted to tumor neovasculature for combined anticancer and antiangiogenesis therapy. Pharmaceutical Research 28(3): 585-596
Lembo, D.; Cavalli, R. 2010: Nanoparticulate delivery systems for antiviral drugs. Antiviral Chemistry and ChemoTherapy 21(2): 53-70
Celia, C.; Cosco, D.; Paolino, D.; Fresta, M. 2011: Nanoparticulate devices for brain drug delivery. Medicinal Research Reviews 31(5): 716-756
Menezes, V.; Malek, A.; Keelan, J.A. 2011: Nanoparticulate drug delivery in pregnancy: placental passage and fetal exposure. Current Pharmaceutical Biotechnology 12(5): 731-742
Uskoković, V.; Desai, T.A. 2014: Nanoparticulate drug delivery platforms for advancing bone infection therapies. Expert Opinion on Drug Delivery 11(12): 1899-1912
Saha, R.N.; Vasanthakumar, S.; Bende, G.; Snehalatha, M. 2010: Nanoparticulate drug delivery systems for cancer chemotherapy. Molecular Membrane Biology 27(7): 215-231
Millar, T.M.; Kanaras, A.G. 2013: Nanoparticulate drugs for the manipulation of angiogenesis. Therapeutic Delivery 4(10): 1217-1219
Gomoll, A.H.; Fitz, W.; Scott, R.D.; Thornhill, T.S.; Bellare, A. 2008: Nanoparticulate fillers improve the mechanical strength of bone cement. Acta Orthopaedica 79(3): 421-427
Meister, S.; Zlatev, I.; Stab, J.; Docter, D.; Baches, S.; Stauber, R.H.; Deutsch, M.; Schmidt, R.; Ropele, S.; Windisch, M.; Langer, K.; Wagner, S.; von Briesen, H.; Weggen, S.; Pietrzik, C.U. 2013: Nanoparticulate flurbiprofen reduces amyloid-β42 generation in an in vitro blood-brain barrier model. Alzheimer's Research and Therapy 5(6): 51
Scott, D.; Rohr, J.ür.; Bae, Y. 2011: Nanoparticulate formulations of mithramycin analogs for enhanced cytotoxicity. International Journal of Nanomedicine 6: 2757-2767
Goesmann, H.; Feldmann, C. 2010: Nanoparticulate functional materials. Angewandte Chemie 49(8): 1362-1395
Haratake, M.; Matsumoto, S.; Ono, M.; Nakayama, M. 2008: Nanoparticulate glutathione peroxidase mimics based on selenocystine-pullulan conjugates. Bioconjugate Chemistry 19(9): 1831-1839
Rahman, M.; Tajabadi, F.; Shooshtari, L.; Taghavinia, N. 2011: Nanoparticulate hollow TiO2 fibers as light scatterers in dye-sensitized solar cells: layer-by-layer self-assembly parameters and mechanism. Chemphyschem: a European Journal of Chemical Physics and Physical Chemistry 12(5): 966-973
Kang, N.; Park, J.H.; Choi, J.; Jin, J.; Chun, J.; Jung, I.G.; Jeong, J.; Park, J.-G.; Lee, S.M.; Kim, H.J.; Son, S.U. 2012: Nanoparticulate iron oxide tubes from microporous organic nanotubes as stable anode materials for lithium ion batteries. Angewandte Chemie 51(27): 6626-6630
Pereira, D.I.A.; Bruggraber, S.F.A.; Faria, N.; Poots, L.K.; Tagmount, M.A.; Aslam, M.F.; Frazer, D.M.; Vulpe, C.D.; Anderson, G.J.; Powell, J.J. 2014: Nanoparticulate iron(III) oxo-hydroxide delivers safe iron that is well absorbed and utilised in humans. Nanomedicine: Nanotechnology Biology and Medicine 10(8): 1877-1886
Schallon, A.; Synatschke, C.V.; Jérôme, V.ér.; Müller, A.H.E.; Freitag, R. 2012: Nanoparticulate nonviral agent for the effective delivery of pDNA and siRNA to differentiated cells and primary human T lymphocytes. Biomacromolecules 13(11): 3463-3474
Axiak-Bechtel, S.M.; Kumar, S.R.; Dank, K.K.; Clarkson, N.A.; Selting, K.A.; Bryan, J.N.; Rosol, T.J.; Espinosa, J.; Decedue, C.J. 2013: Nanoparticulate paclitaxel demonstrates antitumor activity in PC3 and Ace-1 aggressive prostate cancer cell lines. Investigational new Drugs 31(6): 1609-1615
Deng, H.; Shen, W.; Peng, Y.; Chen, X.; Yi, G.; Gao, Z. 2012: Nanoparticulate peroxidase/catalase mimetic and its application. Chemistry 18(29): 8906-8911
Roney, C.A.; Arora, V.; Kulkarni, P.V.; Antich, P.P.; Bonte, F.J. 2010: Nanoparticulate radiolabelled quinolines detect amyloid plaques in mouse models of Alzheimer's disease. International Journal of Alzheimer's Disease 2009
Gokce, E.H.; Ozyazici, M.; Souto, E.B. 2010: Nanoparticulate strategies for effective delivery of poorly soluble therapeutics. Therapeutic Delivery 1(1): 149-167
Kumar, P.; Choonara, Y.E.; Modi, G.; Naidoo, D.; Pillay, V. 2014: Nanoparticulate strategies for the five R's of traumatic spinal cord injury intervention: restriction, repair, regeneration, restoration and reorganization. Nanomedicine 9(2): 331-348
Craparo, E.F.; Bondì, M.L.; Pitarresi, G.; Cavallaro, G. 2011: Nanoparticulate systems for drug delivery and targeting to the central nervous system. Cns Neuroscience and Therapeutics 17(6): 670-677
Zhang, S.; Uludağ, H. 2009: Nanoparticulate systems for growth factor delivery. Pharmaceutical Research 26(7): 1561-1580
Basarkar, A.; Singh, J. 2007: Nanoparticulate systems for polynucleotide delivery. International Journal of Nanomedicine 2(3): 353-360
Wagner, S.; Kufleitner, J.ür.; Zensi, A.; Dadparvar, M.; Wien, S.; Bungert, J.; Vogel, T.; Worek, F.; Kreuter, J.ör.; von Briesen, H. 2010: Nanoparticulate transport of oximes over an in vitro blood-brain barrier model. Plos one 5(12): E14213
Memarzadeh, K.; Sharili, A.S.; Huang, J.; Rawlinson, S.C.F.; Allaker, R.P. 2015: Nanoparticulate zinc oxide as a coating material for orthopedic and dental implants. Journal of Biomedical Materials Research. Part a 103(3): 981-989
Das, S.; Mandal, A.K.; Ghosh, A.; Panda, S.; Das, N.; Sarkar, S. 2008: Nanoparticulated quercetin in combating age related cerebral oxidative injury. Current Aging Science 1(3): 169-174
El Haskouri, J.; Morales, J.é M.; Ortiz de Zárate, D.; Fernández, L.; Latorre, J.; Guillem, C.; Beltrán, A.; Beltrán, D.; Amorós, P. 2008: Nanoparticulated silicas with bimodal porosity: chemical control of the pore sizes. Inorganic Chemistry 47(18): 8267-8277
Shrestha, A.; Shi, Z.; Neoh, K.G.; Kishen, A. 2010: Nanoparticulates for antibiofilm treatment and effect of aging on its antibacterial activity. Journal of Endodontics 36(6): 1030-1035
Nakamura, T.; Fukiage, M.; Higuchi, M.; Nakaya, A.; Yano, I.; Miyazaki, J.; Nishiyama, H.; Akaza, H.; Ito, T.; Hosokawa, H.; Nakayama, T.; Harashima, H. 2014: Nanoparticulation of BCG-CWS for application to bladder cancer therapy. Journal of Controlled Release: Official Journal of the Controlled Release Society 176: 44-53
Tanaka, Y.; Inkyo, M.; Yumoto, R.; Nagai, J.; Takano, M.; Nagata, S. 2009: Nanoparticulation of poorly water soluble drugs using a wet-mill process and physicochemical properties of the nanopowders. Chemical and Pharmaceutical Bulletin 57(10): 1050-1057
Tanaka, Y.; Inkyo, M.; Yumoto, R.; Nagai, J.; Takano, M.; Nagata, S. 2012: Nanoparticulation of probucol, a poorly water-soluble drug, using a novel wet-milling process to improve in vitro dissolution and in vivo oral absorption. Drug Development and Industrial Pharmacy 38(8): 1015-1023
Fernando, G.J.P.; Chen, X.; Primiero, C.A.; Yukiko, S.R.; Fairmaid, E.J.; Corbett, H.J.; Frazer, I.H.; Brown, L.E.; Kendall, M.A.F. 2012: Nanopatch targeted delivery of both antigen and adjuvant to skin synergistically drives enhanced antibody responses. Journal of Controlled Release: Official Journal of the Controlled Release Society 159(2): 215-221
Prow, T.W.; Chen, X.; Prow, N.A.; Fernando, G.J.P.; Tan, C.S.E.; Raphael, A.P.; Chang, D.; Ruutu, M.P.; Jenkins, D.W.K.; Pyke, A.; Crichton, M.L.; Raphaelli, K.; Goh, L.Y.H.; Frazer, I.H.; Roberts, M.S.; Gardner, J.; Khromykh, A.A.; Suhrbier, A.; Hall, R.A.; Kendall, M.A.F. 2010: Nanopatch-targeted skin vaccination against West Nile Virus and Chikungunya virus in mice. Small 6(16): 1776-1784
Lacour, S.ép. 2011: Nanopatents and their impact on the medical environment. Journal International de Bioethique 22(1): 119-133; 213-214
Dvořáčková, J.; Bielniková, H.; Mačák, J. 2013: Nanopathology as a new scientific discipline. Minireview. Ceskoslovenska Patologie 49(1): 46-50
Chen, C.-C.A.; Chen, J.-R. 2010: Nanopattern fabrication by tip plowing technology on 55 nm grating with stitching image method. Journal of Nanoscience and Nanotechnology 10(7): 4411-4416
Shimamoto, N.; Tanaka, Y.; Mitomo, H.; Kawamura, R.; Ijiro, K.; Sasaki, K.; Osada, Y. 2012: Nanopattern fabrication of gold on hydrogels and application to tunable photonic crystal. Advanced Materials 24(38): 5243-5248; 5242
Banerjee, R.; Hazra, S.; Banerjee, S.; Sanyal, M.K. 2009: Nanopattern formation in self-assembled monolayers of thiol-capped au nanocrystals. Physical Review. e Statistical Nonlinear and Soft Matter Physics 80(5 Part 2): 056204
Song, L.; Ming Lam, Y. 2007: Nanopattern formation using a chemically modified PS-P4VP diblock copolymer. Nanotechnology 18(7): 075304
Kim, S.H.; Jeong, J.H.; Youn, J.R. 2010: Nanopattern insert molding. Nanotechnology 21(20): 205302
Kim, M.R.; Heo, S.Y.; Jang, D.-J. 2009: Nanopattern transfer and wettability modification of regularly structured metallic and polymeric surfaces with replication. Journal of Colloid and Interface Science 339(1): 217-221
Oshima, H.; Tamura, H.; Takeuchi, M.; Inomata, A.; Yanagida, Y.; Matsushita, N.; Komoriya, H.; Uzumaki, T.; Tanaka, A. 2009: Nanopattern transfer from high-density self-assembled nanosphere arrays on prepatterned substrates. Nanotechnology 20(45): 455303
Xu, X.; Choi, B.-Y.; Kim, K.-T.; Tae, G.; Jung, G.-y.; Song, M.-R.; Kim, Y.H. 2011: Nanopatterned 3D structure for guidance of cells. Journal of Controlled Release: Official Journal of the Controlled Release Society 152(Suppl 1): E248-E249
Gellini, C.; Muniz-Miranda, M.; Innocenti, M.; Carlà, F.; Loglio, F.; Foresti, M.L.; Salvi, P.R. 2008: Nanopatterned Ag substrates for SERS spectroscopy. Physical Chemistry Chemical Physics: Pccp 10(31): 4555-4558
Chung, K.; DeQUACH, J.A.; Christman, K.L. 2010: Nanopatterned Interfaces for Controlling cell Behavior. Nano Life 1(1-Amp 2: 63-77
Han, X.; Maiz, J.; Mijangos, C.; Zaldo, C. 2014: Nanopatterned PMMA-Yb:Er/Tm:Lu2O3 composites with visible upconversion emissions. Nanotechnology 25(20): 205302
Kim, B.; Lam, C.N.; Olsen, B.D. 2012: Nanopatterned Protein Films Directed by Ionic Complexation with Water-Soluble Diblock Copolymers. Macromolecules 45(11): 4572-4580
Kim, S.-M.; Park, T.-Y.; Park, S.-J.; Lee, S.-J.; Baek, J.H.; Park, Y.C.; Jung, G.Y. 2009: Nanopatterned aluminum nitride template for high efficiency light-emitting diodes. Optics Express 17(17): 14791-14799
Yu, Q.; Ista, L.K.; López, G.P. 2014: Nanopatterned antimicrobial enzymatic surfaces combining biocidal and fouling release properties. Nanoscale 6(9): 4750-4757
Sharma, A.; Pandey, C.M.; Matharu, Z.; Soni, U.; Sapra, S.; Sumana, G.; Pandey, M.K.; Chatterjee, T.; Malhotra, B.D. 2012: Nanopatterned cadmium selenide Langmuir-Blodgett platform for leukemia detection. Analytical Chemistry 84(7): 3082-3089
Wang, Y.; Liu, J.; Christiansen, S.; Kim, D.H.; Gösele, U.; Steinhart, M. 2008: Nanopatterned carbon films with engineered morphology by direct carbonization of UV-stabilized block copolymer films. Nano Letters 8(11): 3993-3997
Kim, D.-H.; Kshitiz; Smith, R.R.; Kim, P.; Ahn, E.H.; Kim, H.-N.; Marbán, E.; Suh, K.-Y.; Levchenko, A. 2012: Nanopatterned cardiac cell patches promote stem cell niche formation and myocardial regeneration. Integrative Biology: Quantitative Biosciences from Nano to Macro 4(9): 1019-1033
Zorlutuna, P.; Hasirci, N.; Hasirci, V. 2008: Nanopatterned collagen tubes for vascular tissue engineering. Journal of Tissue Engineering and Regenerative Medicine 2(6): 373-377
Kwon, J.; Ganapathy, V.; Kim, Y.H.; Song, K.-D.; Park, H.-G.; Jun, Y.; Yoo, P.J.; Park, J.H. 2013: Nanopatterned conductive polymer films as a Pt, TCO-free counter electrode for low-cost dye-sensitized solar cells. Nanoscale 5(17): 7838-7843
Mentzel, T.S.; Wanger, D.D.; Ray, N.; Walker, B.J.; Strasfeld, D.; Bawendi, M.G.; Kastner, M.A. 2012: Nanopatterned electrically conductive films of semiconductor nanocrystals. Nano Letters 12(8): 4404-4408
Wang, Z.F.; Liu, F. 2011: Nanopatterned graphene quantum dots as building blocks for quantum cellular automata. Nanoscale 3(10): 4201-4205
Catrysse, P.B.; Fan, S. 2010: Nanopatterned metallic films for use as transparent conductive electrodes in optoelectronic devices. Nano Letters 10(8): 2944-2949
Frederich, N.; Nysten, B.; Duwez, A.-S.; Muls, B.; Hofkens, J.; Jonas, A.M.; Habib-Jiwan, J.-L. 2008: Nanopatterned monolayers of an adsorbed chromophore. Nanotechnology 19(33): 335303
Yang, H.S.; Ieronimakis, N.; Tsui, J.H.; Kim, H.N.; Suh, K.-Y.; Reyes, M.; Kim, D.-H. 2014: Nanopatterned muscle cell patches for enhanced myogenesis and dystrophin expression in a mouse model of muscular dystrophy. Biomaterials 35(5): 1478-1486
Yu, Q.; Shivapooja, P.; Johnson, L.M.; Tizazu, G.; Leggett, G.J.; López, G.P. 2013: Nanopatterned polymer brushes as switchable bioactive interfaces. Nanoscale 5(9): 3632-3637
Schernthaner, M.; Reisinger, B.; Wolinski, H.; Kohlwein, S.D.; Trantina-Yates, A.; Fahrner, M.; Romanin, C.; Itani, H.; Stifter, D.; Leitinger, G.; Groschner, K.; Heitz, J. 2012: Nanopatterned polymer substrates promote endothelial proliferation by initiation of β-catenin transcriptional signaling. Acta Biomaterialia 8(8): 2953-2962
Scheffel, A.é; Poulsen, N.; Shian, S.; Kröger, N. 2011: Nanopatterned protein microrings from a diatom that direct silica morphogenesis. Proceedings of the National Academy of Sciences of the United States of America 108(8): 3175-3180
Baralia, G.G.; Pallandre, A.; Nysten, B.; Jonas, A.M. 2006: Nanopatterned self-assembled monolayers. Nanotechnology 17(4): 1160-1165
Choi, J.; Parida, B.; Lee, J.T.; Kim, K. 2011: Nanopatterned silicon emitters of a solar cell fabricated by anodic aluminum oxide masks. Journal of Nanoscience and Nanotechnology 11(7): 6318-6322
Yu, Q.; Cho, J.; Shivapooja, P.; Ista, L.K.; López, G.P. 2013: Nanopatterned smart polymer surfaces for controlled attachment, killing, and release of bacteria. Acs Applied Materials and Interfaces 5(19): 9295-9304
Raz, S.R.; Marchesini, G.R.; Bremer, M.G.E.G.; Colpo, P.; Garcia, C.P.; Guidetti, G.; Norde, W.; Rossi, F. 2012: Nanopatterned submicron pores as a shield for nonspecific binding in surface plasmon resonance-based sensing. Analyst 137(22): 5251-5259
García-Iglesias, M.; de Waal, B.F.M.; de Feijter, I.; Palmans, A.R.A.; Meijer, E.W. 2015: Nanopatterned superlattices in self-assembled C2 -symmetric oligodimethylsiloxane-based benzene-1,3,5-tricarboxamides. Chemistry 21(1): 377-385
Kharintsev, S.S.; Rogov, A.M.; Kazarian, S.G. 2013: Nanopatterning and tuning of optical taper antenna apex for tip-enhanced Raman scattering performance. Review of Scientific Instruments 84(9): 093106
Lohmüller, T.; Aydin, D.; Schwieder, M.; Morhard, C.; Louban, I.; Pacholski, C.; Spatz, J.P. 2011: Nanopatterning by block copolymer micelle nanolithography and bioinspired applications. Biointerphases 6(1): Mr1
Mackus, A.J.M.; Dielissen, S.A.F.; Mulders, J.J.L.; Kessels, W.M.M. 2012: Nanopatterning by direct-write atomic layer deposition. Nanoscale 4(15): 4477-4480
Guan, W.; Ross, I.M.; Bhatta, U.M.; Ghatak, J.; Peng, N.; Inkson, B.J.; Möbus, G.ün. 2013: Nanopatterning by ion implantation through nanoporous alumina masks. Physical Chemistry Chemical Physics: Pccp 15(12): 4291-4296
Seo, J.-H.; Park, J.H.; Kim, S.-I.; Park, B.J.; Ma, Z.; Choi, J.; Ju, B.-K. 2014: Nanopatterning by laser interference lithography: applications to optical devices. Journal of Nanoscience and Nanotechnology 14(2): 1521-1532
Jester, S.-S.; Sigmund, E.; Höger, S. 2011: Nanopatterning by molecular polygons. Journal of the American Chemical Society 133(29): 11062-11065
Eaton, T.R.; Torres, D.M.ño.; Buck, M.; Mayor, M. 2013: Nanopatterning by molecular self-assembly on surfaces. Chimia 67(4): 222-226
Joe, M.; Kim, J.-H.; Choi, C.; Kahng, B.; Kim, J.-S. 2009: Nanopatterning by multiple-ion-beam sputtering. Journal of Physics. Condensed Matter: An Institute of Physics Journal 21(22): 224011
Ereifej, E.S.; Matthew, H.W.; Newaz, G.; Mukhopadhyay, A.; Auner, G.; Salakhutdinov, I.; VandeVord, P.J. 2013: Nanopatterning effects on astrocyte reactivity. Journal of Biomedical Materials Research. Part a 101(6): 1743-1757
George, A.; Blank, D.H.A.; ten Elshof, J.E. 2009: Nanopatterning from the gas phase: high resolution soft lithographic patterning of organosilane thin films. Langmuir 25(23): 13298-13301
Romão, R.I.S.; Ferreira, Q.; Morgado, J.; Martinho, J.é M.G.; da Silva, A.él.M.P.S.G.ça. 2011: Nanopatterning in Langmuir-Blodgett monolayers of a thermoresponsive double hydrophilic block copolymer studied by atomic force microscopy. Journal of Nanoscience and Nanotechnology 11(4): 3151-3161
Lalo, H.él.èn.; Ayela, C.éd.; Dague, E.; Vieu, C.; Haupt, K. 2010: Nanopatterning molecularly imprinted polymers by soft lithography: a hierarchical approach. Lab on a Chip 10(10): 1316-1318
Hu, Y.; Kalachahi, H.H.; Das, A.K.; Koch, R. 2012: Nanopatterning of Si(001) for bottom-up fabrication of nanostructures. Nanotechnology 23(16): 165301
Kang, S-W.; Banerjee, D.; Kaul, A.B.; Megerian, K.G. 2010: Nanopatterning of catalyst by Dip Pen nanolithography (DPN) for synthesis of carbon nanotubes (CNT). Scanning 32(1): 42-48
Wang, L.; Chen, Q.; Pan, G.-B.; Wan, L.-J.; Zhang, S.; Zhan, X.; Northrop, B.H.; Stang, P.J. 2008: Nanopatterning of donor/acceptor hybrid supramolecular architectures on highly oriented pyrolytic graphite: a scanning tunneling microscopy study. Journal of the American Chemical Society 130(40): 13433-13441
Martinez, R.V.; Chiesa, M.; Garcia, R. 2011: Nanopatterning of ferritin molecules and the controlled size reduction of their magnetic cores. Small 7(20): 2914-2920
Slater, J.H.; Frey, W. 2008: Nanopatterning of fibronectin and the influence of integrin clustering on endothelial cell spreading and proliferation. Journal of Biomedical Materials Research. Part a 87(1): 176-195
Withers, F.; Bointon, T.H.; Dubois, M.; Russo, S.; Craciun, M.F. 2011: Nanopatterning of fluorinated graphene by electron beam irradiation. Nano Letters 11(9): 3912-3916
George, A.; Maijenburg, A.W.; Nguyen, M.D.; Maas, M.G.; Blank, D.H.A.; ten Elshof, J.E. 2011: Nanopatterning of functional materials by gas phase pattern deposition of self-assembled molecular thin films in combination with electrodeposition. Langmuir 27(20): 12760-12768
Kim, J.; Koh, J.K.; Kim, B.; Kim, J.H.; Kim, E. 2012: Nanopatterning of mesoporous inorganic oxide films for efficient light harvesting of dye-sensitized solar cells. Angewandte Chemie 51(28): 6864-6869
Soppera, O.; Dirani, A.; Ponche, A.; Roucoules, V. 2008: Nanopatterning of plasma polymer reactive surfaces by DUV interferometry. Nanotechnology 19(39): 395304
Pecora, E.F.; Lawrence, N.; Gregg, P.; Trevino, J.; Artoni, P.; Irrera, A.; Priolo, F.; Dal Negro, L. 2012: Nanopatterning of silicon nanowires for enhancing visible photoluminescence. Nanoscale 4(9): 2863-2866
Wang, X.; Ocola, L.E.; Divan, R.S.; Sumant, A.V. 2012: Nanopatterning of ultrananocrystalline diamond nanowires. Nanotechnology 23(7): 075301
Han, A.; Kuan, A.; Golovchenko, J.; Branton, D. 2012: Nanopatterning on nonplanar and fragile substrates with ice resists. Nano Letters 12(2): 1018-1021
Jiang, X.; Wu, G.; Zhou, J.; Wang, S.; Tseng, A.A.; Du, Z. 2011: Nanopatterning on silicon surface using atomic force microscopy with diamond-like carbon (DLC)-coated Si probe. Nanoscale Research Letters 6(1): 518
Lu, H.-H.; Lin, C.-W.; Hsiao, T.-C.; Lee, C.-K.; Hsu, S.-M. 2009: Nanopatterning on silicon wafers using AFM-based lithography--for solar cells. Journal of Nanoscience and Nanotechnology 9(3): 1696-1700
Jiang, J.; Zhang, L.; Wang, X. 2013: Nanopatterning palladium surface layers through electrochemical deposition and dissolution of zinc in ionic liquid. Acs Applied Materials and Interfaces 5(23): 12689-12694
Wei, J.H.; Kacar, T.; Tamerler, C.; Sarikaya, M.; Ginger, D.S. 2009: Nanopatterning peptides as bifunctional inks for templated assembly. Small 5(6): 689-693
Ciesielski, A.; Perone, R.; Pieraccini, S.; Spada, G.P.; Samorì, P. 2010: Nanopatterning the surface with ordered supramolecular architectures of N(9)-alkylated guanines: STM reveals. Chemical Communications 46(25): 4493-4495
Murphy-DuBay, N.; Wang, L.; Kinzel, E.C.; Uppuluri, S.M.V.; Xu, X. 2008: Nanopatterning using NSOM probes integrated with high transmission nanoscale bowtie aperture. Optics Express 16(4): 2584-2589
Mao, A.; Schaper, C.D.; Karlicek, R.F. 2013: Nanopatterning using a simple bi-layer lift-off process for the fabrication of a photonic crystal nanostructure. Nanotechnology 24(8): 085302
Jaehrling, S.; Thelen, K.; Wolfram, T.; Pollerberg, G.E. 2009: Nanopatterns biofunctionalized with cell adhesion molecule DM-GRASP offered as cell substrate: spacing determines attachment and differentiation of neurons. Nano Letters 9(12): 4115-4121
Hangarter, C.M.; Lee, Y.-I.; Hernandez, S.C.; Choa, Y.-H.; Myung, N.V. 2010: Nanopeapods by galvanic displacement reaction. Angewandte Chemie 49(39): 7081-7085
McCabe, E.R.B. 2010: Nanopediatrics: enabling personalized medicine for children. Pediatric Research 67(5): 453-457
Vanrell, L.ía.; Gonzalez-Techera, A.és.; Hammock, B.D.; Gonzalez-Sapienza, G. 2013: Nanopeptamers for the development of small-analyte lateral flow tests with a positive readout. Analytical Chemistry 85(2): 1177-1182
Kah, M.; Hofmann, T. 2014: Nanopesticide research: current trends and future priorities. Environment International 63: 224-235
Kookana, R.S.; Boxall, A.B.A.; Reeves, P.T.; Ashauer, R.; Beulke, S.; Chaudhry, Q.; Cornelis, G.; Fernandes, T.F.; Gan, J.; Kah, M.; Lynch, I.; Ranville, J.; Sinclair, C.; Spurgeon, D.; Tiede, K.; Van den Brink, P.J. 2014: Nanopesticides: guiding principles for regulatory evaluation of environmental risks. Journal of Agricultural and Food Chemistry 62(19): 4227-4240
Guimarães, M.A.; Campelo, Y.D.M.; Véras, L.M.C.; Colhone, M.C.; Lima, D.F.; Ciancaglini, P.; Kuckelhaus, S.S.; Lima, F.C.A.; de Moraes, J.é; de Leite, J.é R.S.A. 2014: Nanopharmaceutical approach of epiisopiloturine alkaloid carried in liposome system: preparation and in vitro schistosomicidal activity. Journal of Nanoscience and Nanotechnology 14(6): 4519-4528
Anonymous 2013: Nanopharmaceutical may offer benefits in combinations. Cancer discovery 3(12): OF3
Weissig, V.; Pettinger, T.K.; Murdock, N. 2014: Nanopharmaceuticals (part 1): products on the market. International Journal of Nanomedicine 9: 4357-4373
Ali, M.; Afzal, M.; Bhattacharya, S.M.; Ahmad, F.J.; Dinda, A.K. 2013: Nanopharmaceuticals to target antifilarials: a comprehensive review. Expert Opinion on Drug Delivery 10(5): 665-678
Ali, J. 2011: Nanopharmaceutics. International Journal of Pharmaceutical Investigation 1(2): 61
Tomuleasa, C.; Braicu, C.; Irimie, A.; Craciun, L.; Berindan-Neagoe, I. 2014: Nanopharmacology in translational hematology and oncology. International Journal of Nanomedicine 9: 3465-3479
Muthu, M.S.; Feng, S.-S. 2010: Nanopharmacology of liposomes developed for cancer therapy. Nanomedicine 5(7): 1017-1019
Chekman, I.S. 2008: Nanopharmacology: experimental and clinic aspect. Likars'ka Sprava 2008(3-4): 104-109
O'Malley, P. 2010: Nanopharmacology: for the future-think small. Clinical Nurse Specialist Cns 24(3): 123-124
Seĭfulla, R.D. 2010: Nanopharmacology: not a constituent part of homeopathy. Eksperimental'naia i Klinicheskaia Farmakologiia 73(7): 40-41
Rivera Gil, P.; Hühn, D.; del Mercato, L.L.; Sasse, D.; Parak, W.J. 2010: Nanopharmacy: Inorganic nanoscale devices as vectors and active compounds. Pharmacological Research 62(2): 115-125
Baskin, J.Z.; Vasanji, A.; McMasters, J.; Soenjaya, Y.; Barbu, A.M.; Eppell, S.J. 2012: Nanophase bone substitute in vivo response to subcutaneous implantation. Journal of Biomedical Materials Research. Part a 100(9): 2462-2473
Shi, L.P.; Chong, T.C. 2007: Nanophase change for data storage applications. Journal of Nanoscience and Nanotechnology 7(1): 65-93
Nordhei, C.; Ramstad, A.L.; Nicholson, D.G. 2008: Nanophase cobalt, nickel and zinc ferrites: synchrotron XAS study on the crystallite size dependence of metal distribution. Physical Chemistry Chemical Physics: Pccp 10(7): 1053-1066
Sun, Y.; Ren, Y.; Haeffner, D.R.; Almer, J.D.; Wang, L.; Yang, W.; Truong, T.T. 2010: Nanophase evolution at semiconductor/electrolyte interface in situ probed by time-resolved high-energy synchrotron X-ray diffraction. Nano Letters 10(9): 3747-3753
Lock, J.; Nguyen, T.Y.; Liu, H. 2012: Nanophase hydroxyapatite and poly(lactide-co-glycolide) composites promote human mesenchymal stem cell adhesion and osteogenic differentiation in vitro. Journal of Materials Science. Materials in Medicine 23(10): 2543-2552
Zakaria, S.M.; Sharif Zein, S.H.; Othman, M.R.; Yang, F.; Jansen, J.A. 2013: Nanophase hydroxyapatite as a biomaterial in advanced hard tissue engineering: a review. Tissue Engineering. Part B Reviews 19(5): 431-441
Malek, K.; Eikerling, M.; Wang, Q.; Liu, Z.; Otsuka, S.; Akizuki, K.; Abe, M. 2008: Nanophase segregation and water dynamics in hydrated Nafion: molecular modeling and experimental validation. Journal of Chemical Physics 129(20): 204702
Zhu, C.; Chen, D.; Shen, Y.; Jones, C.D.; Glaser, M.A.; Maclennan, J.E.; Clark, N.A. 2010: Nanophase segregation in binary mixtures of a bent-core and a rodlike liquid-crystal molecule. Physical Review. e Statistical Nonlinear and Soft Matter Physics 81(1 Part 1): 011704
Le, L.; Molinero, V. 2011: Nanophase segregation in supercooled aqueous solutions and their glasses driven by the polyamorphism of water. Journal of Physical Chemistry. a 115(23): 5900-5907
Bolognesi, A.; Galeotti, F.; Giovanella, U.; Bertini, F.; Yunus, S. 2009: Nanophase separation in polystyrene-polyfluorene block copolymers thin films prepared through the breath figure procedure. Langmuir 25(9): 5333-5338
Ye, Q.; Wang, Y.; Spencer, P. 2009: Nanophase separation of polymers exposed to simulated bonding conditions. Journal of Biomedical Materials Research. Part B Applied Biomaterials 88(2): 339-348
Navrotsky, A.; Ma, C.; Lilova, K.; Birkner, N. 2010: Nanophase transition metal oxides show large thermodynamically driven shifts in oxidation-reduction equilibria. Science 330(6001): 199-201
Mao, L.; Shen, L.; Niu, J.; Zhang, J.; Ding, W.; Wu, Y.; Fan, R.; Yuan, G. 2013: Nanophasic biodegradation enhances the durability and biocompatibility of magnesium alloys for the next-generation vascular stents. Nanoscale 5(20): 9517-9522
Davis, B.L.; Hussein, M.I. 2014: Nanophononic metamaterial: thermal conductivity reduction by local resonance. Physical Review Letters 112(5): 055505
Mivelle, M.; Van Zanten, T.S.; Manzo, C.; Garcia-Parajo, M.F. 2014: Nanophotonic approaches for nanoscale imaging and single-molecule detection at ultrahigh concentrations. Microscopy Research and Technique 77(7): 537-545
Tate, N.; Naruse, M.; Yatsui, T.; Kawazoe, T.; Hoga, M.; Ohyagi, Y.; Fukuyama, T.; Kitamura, M.; Ohtsu, M. 2010: Nanophotonic code embedded in embossed hologram for hierarchical information retrieval. Optics Express 18(7): 7497-7505
Lu, J.; Vučković, J. 2013: Nanophotonic computational design. Optics Express 21(11): 13351-13367
Blum, C.; Zijlstra, N.; Lagendijk, A.; Wubs, M.; Mosk, A.P.; Subramaniam, V.; Vos, W.L. 2012: Nanophotonic control of the Förster resonance energy transfer efficiency. Physical Review Letters 109(20): 203601
Sridaran, S.; Bhave, S.A. 2010: Nanophotonic devices on thin buried oxide Silicon-On-Insulator substrates. Optics Express 18(4): 3850-3857
Ghenuche, P.; de Torres, J.; Moparthi, S.B.; Grigoriev, V.; Wenger, J.ér.ôm. 2014: Nanophotonic enhancement of the Förster resonance energy-transfer rate with single nanoapertures. Nano Letters 14(8): 4707-4714
Orcutt, J.S.; Khilo, A.; Holzwarth, C.W.; Popović, M.A.; Li, H.; Sun, J.; Bonifield, T.; Hollingsworth, R.; Kärtner, F.X.; Smith, H.I.; Stojanović, V.; Ram, R.J. 2011: Nanophotonic integration in state-of-the-art CMOS foundries. Optics Express 19(3): 2335-2346
Walker, B.N.; Razunguzwa, T.; Powell, M.; Knochenmuss, R.; Vertes, A. 2009: Nanophotonic ion production from silicon microcolumn arrays. Angewandte Chemie 48(9): 1669-1672
Walker, B.N.; Stolee, J.A.; Vertes, A. 2012: Nanophotonic ionization for ultratrace and single-cell analysis by mass spectrometry. Analytical Chemistry 84(18): 7756-7762
Duval, D.é; González-Guerrero, A.B.én.; Dante, S.; Osmond, J.; Monge, R.; Fernández, L.J.; Zinoviev, K.E.; Domínguez, C.; Lechuga, L.M. 2012: Nanophotonic lab-on-a-chip platforms including novel bimodal interferometers, microfluidics and grating couplers. Lab on a Chip 12(11): 1987-1994
Lockau, D.; Sontheimer, T.; Becker, C.; Rudigier-Voigt, E.; Schmidt, F.; Rech, B. 2013: Nanophotonic light trapping in 3-dimensional thin-film silicon architectures. Optics Express 21(Suppl 1): A42-A52
Vasudev, A.P.; Schuller, J.A.; Brongersma, M.L. 2012: Nanophotonic light trapping with patterned transparent conductive oxides. Optics Express 20(10): A385-A394
Fiers, M.A.A.; Van Vaerenbergh, T.; Wyffels, F.; Verstraeten, D.; Schrauwen, B.; Dambre, J.; Bienstman, P. 2014: Nanophotonic reservoir computing with photonic crystal cavities to generate periodic patterns. IEEE Transactions on Neural Networks and Learning Systems 25(2): 344-355
Hsieh, C.-H.; Chou, L.-J.; Lin, G.-R.; Bando, Y.; Golberg, D. 2008: Nanophotonic switch: gold-in-Ga2O3 peapod nanowires. Nano Letters 8(10): 3081-3085
Rajasekharan, R.; Wilkinson, T.D.; Hands, P.J.W.; Dai, Q. 2011: Nanophotonic three-dimensional microscope. Nano Letters 11(7): 2770-2773
Chen, G.; Yang, C.; Prasad, P.N. 2013: Nanophotonics and nanochemistry: controlling the excitation dynamics for frequency up- and down-conversion in lanthanide-doped nanoparticles. Accounts of Chemical Research 46(7): 1474-1486
Lapotko, D.O. 2013: Nanophotonics and theranostics: will light do the magic?. Theranostics 3(3): 138-140
Santori, C.; Barclay, P.E.; Fu, K-M.C.; Beausoleil, R.G.; Spillane, S.; Fisch, M. 2010: Nanophotonics for quantum optics using nitrogen-vacancy centers in diamond. Nanotechnology 21(27): 274008
Meixner, A.J. 2011: Nanophotonics, nano-optics and nanospectroscopy. Beilstein Journal of Nanotechnology 2: 499-500
Petersen, J.; Volz, J.ür.; Rauschenbeutel, A. 2014: Nanophotonics. Chiral nanophotonic waveguide interface based on spin-orbit interaction of light. Science 346(6205): 67-71
Sheldon, M.T.; van de Groep, J.; Brown, A.M.; Polman, A.; Atwater, H.A. 2014: Nanophotonics. Plasmoelectric potentials in metal nanostructures. Science 346(6211): 828-831
Wu, X.; Sun, Y.; Pelton, M. 2009: Recombination rates for single colloidal quantum dots near a smooth metal film. Physical Chemistry Chemical Physics: Pccp 11(28): 5867-5870
Lim, C.-K.; Heo, J.; Shin, S.; Jeong, K.; Seo, Y.H.; Jang, W.-D.; Park, C.R.; Park, S.Y.; Kim, S.; Kwon, I.C. 2013: Nanophotosensitizers toward advanced photodynamic therapy of Cancer. Cancer Letters 334(2): 176-187
Biris, A.S.; Boldor, D.; Palmer, J.; Monroe, W.T.; Mahmood, M.; Dervishi, E.; Xu, Y.; Li, Z.; Galanzha, E.I.; Zharov, V.P. 2009: Nanophotothermolysis of multiple scattered cancer cells with carbon nanotubes guided by time-resolved infrared thermal imaging. Journal of Biomedical Optics 14(2): 021007
Dhrami-Gavazi, E.; Schiff, W.M.; Barile, G.R. 2009: Nanophthalmos and acquired retinoschisis. American Journal of Ophthalmology 147(1): 108-110.E1
Sahin, A.; Oltulu, R.; Kivrak, A.S.; Ozkagnici, A. 2012: Nanophthalmos and situs inversus totalis. Indian Journal of Ophthalmology 60(4): 319-321
Tay, T.; Smith, J.E.H.; Berman, Y.; Adès, L.; Missotte, I.; Saglibène, H.ēl.èn.; Martin, F.; Mitchell, P.; Taylor, D. 2007: Nanophthalmos in a Melanesian population. Clinical and Experimental Ophthalmology 35(4): 348-354
Fertig, H.A.; Brey, L. 2010: Nanophysics in graphene: neutrino physics in quantum rings and superlattices. Philosophical Transactions. Series A Mathematical Physical and Engineering Sciences 368(1932): 5483-5497
Yang, X.; Ileri, N.; Larson, C.C.; Carlson, T.C.; Britten, J.A.; Chang, A.S.P.; Gu, C.; Bond, T.C. 2012: Nanopillar array on a fiber facet for highly sensitive surface-enhanced Raman scattering. Optics Express 20(22): 24819-24826
Anandan, V.; Rao, Y.L.; Zhang, G. 2006: Nanopillar array structures for enhancing biosensing performance. International Journal of Nanomedicine 1(1): 73-79
Zhang, C.; Wang, K.; Bai, J.; Wang, S.; Zhao, W.; Yang, F.; Gu, C.; Wang, G. 2013: Nanopillar array with a λ/11 diameter fabricated by a kind of visible CW laser direct lithography system. Nanoscale Research Letters 8(1): 280
Qin, H.; Kim, H.-S.; Blick, R.H. 2008: Nanopillar arrays on semiconductor membranes as electron emission amplifiers. Nanotechnology 19(9): 095504
Kuzmin, O.V.; Pei, Y.T.; De Hosson, J.T.M. 2014: Nanopillar fabrication with focused ion beam cutting. Microscopy and Microanalysis: the Official Journal of Microscopy Society of America Microbeam Analysis Society Microscopical Society of Canada 20(5): 1581-1584
Chen, P.; van Veldhoven, E.; Sanford, C.A.; Salemink, H.W.M.; Maas, D.J.; Smith, D.A.; Rack, P.D.; Alkemade, P.F.A. 2010: Nanopillar growth by focused helium ion-beam-induced deposition. Nanotechnology 21(45): 455302
Sun, H.; Ren, F.; Ng, K.W.; Tran, T.-T.D.; Li, K.; Chang-Hasnain, C.J. 2014: Nanopillar lasers directly grown on silicon with heterostructure surface passivation. Acs Nano 8(7): 6833-6839
Prasad, B.; Egilmez, M.; Schoofs, F.; Fix, T.; Vickers, M.E.; Zhang, W.; Jian, J.; Wang, H.; Blamire, M.G. 2014: Nanopillar spin filter tunnel junctions with manganite barriers. Nano Letters 14(5): 2789-2793
Kaji, N.; Okamoto, Y.; Tokeshi, M.; Baba, Y. 2010: Nanopillar, nanoball, and nanofibers for highly efficient analysis of biomolecules. Chemical Society Reviews 39(3): 948-956
Liao, Y.-X.; Yi, F.-T. 2010: Nanopillars by cesium chloride self-assembly and dry etching. Nanotechnology 21(46): 465302
Chigrin, D.; Lavrinenko, A.; Sotomayor Torres, C. 2004: Nanopillars photonic crystal waveguides. Optics Express 12(4): 617-622
Jacobs, B.W.; Crimp, M.A.; McElroy, K.; Ayres, V.M. 2008: Nanopipes in gallium nitride nanowires and rods. Nano Letters 8(12): 4353-4358
Rodgers, P.J.; Amemiya, S.; Wang, Y.; Mirkin, M.V. 2010: Nanopipet voltammetry of common ions across the liquid-liquid interface. Theory and limitations in kinetic analysis of nanoelectrode voltammograms. Analytical Chemistry 82(1): 84-90
An, S.; Lee, K.; Kim, B.; Noh, H.; Kim, J.; Kwon, S.; Lee, M.; Hong, M.-H.; Jhe, W. 2014: Nanopipette combined with quartz tuning fork-atomic force microscope for force spectroscopy/microscopy and liquid delivery-based nanofabrication. Review of Scientific Instruments 85(3): 033702
Shi, W.; Sa, N.; Thakar, R.; Baker, L.A. 2015: Nanopipette delivery: influence of surface charge. Analyst 140(14): 4835-4842
Sunlu, F.S.; Demir, I.; Onkal Engin, G.; Buyukisik, B.; Sunlu, U.; Koray, T.; Kukrer, S. 2009: Nanoplankton population dynamics and dissolved oxygen change across the Bay of Izmir by neural networks. Journal of Environmental Monitoring: Jem 11(6): 1165-1168
Gorkhover, T.; Adolph, M.; Rupp, D.; Schorb, S.; Epp, S.W.; Erk, B.; Foucar, L.; Hartmann, R.; Kimmel, N.; Kühnel, K.-U.; Rolles, D.; Rudek, B.; Rudenko, A.; Andritschke, R.; Aquila, A.; Bozek, J.D.; Coppola, N.; Erke, T.; Filsinger, F.; Gorke, H.; Graafsma, H.; Gumprecht, L.; Hauser, G.; Herrmann, S.; Hirsemann, H.; Hömke, A.; Holl, P.; Kaiser, C.; Krasniqi, F.; Meyer, J.-H.; Matysek, M.; Messerschmidt, M.; Miessner, D.; Nilsson, B.; Pietschner, D.; Potdevin, G.; Reich, C.; Schaller, G.; Schmidt, C.; Schopper, F.; Schröter, C.D.; Schulz, J.; Soltau, H.; Weidenspointner, G.; Schlichting, I.; Strüder, L.; Ullrich, J.; Möller, T.; Bostedt, C. 2012: Nanoplasma dynamics of single large xenon clusters irradiated with superintense x-ray pulses from the linac coherent light source free-electron laser. Physical Review Letters 108(24): 245005
Lee, S.M.; Kim, D.; Jeon, D.Y.; Choi, K.C. 2012: Nanoplasmon-enhanced transparent plasma display devices. Small 8(9): 1350-1354
Jackman, J.A.; Zhdanov, V.P.; Cho, N.-J. 2014: Nanoplasmonic biosensing for soft matter adsorption: kinetics of lipid vesicle attachment and shape deformation. Langmuir 30(31): 9494-9503
Jonsson, M.P.; Dahlin, A.B.; Jönsson, P.; Höök, F. 2008: Nanoplasmonic biosensing with focus on short-range ordered nanoholes in thin metal films. Biointerphases 3(3): Fd30-Fd40
Mazzotta, F.; Wang, G.; Hägglund, C.; Höök, F.; Jonsson, M.P. 2010: Nanoplasmonic biosensing with on-chip electrical detection. Biosensors and Bioelectronics 26(4): 1131-1136
Zhang, D.; Lu, Y.; Jiang, J.; Zhang, Q.; Yao, Y.; Wang, P.; Chen, B.; Cheng, Q.; Liu, G.L.; Liu, Q. 2015: Nanoplasmonic biosensor: coupling electrochemistry to localized surface plasmon resonance spectroscopy on nanocup arrays. Biosensors and Bioelectronics 67: 237-242
Nguyen, A.H.; Sim, S.J. 2015: Nanoplasmonic biosensor: detection and amplification of dual bio-signatures of circulating tumor DNA. Biosensors and Bioelectronics 67: 443-449
Wahsheh, R.A.; Lu, Z.; Abushagur, M.A.G. 2009: Nanoplasmonic couplers and splitters. Optics Express 17(21): 19033-19040
Liu, Q.; Jing, C.; Zheng, X.; Gu, Z.; Li, D.; Li, D-Wei.; Huang, Q.; Long, Y-Tao.; Fan, C. 2012: Nanoplasmonic detection of adenosine triphosphate by aptamer regulated self-catalytic growth of single gold nanoparticles. Chemical Communications 48(77): 9574-9576
Lee, S.Eunice.; Lee, L.P. 2010: Nanoplasmonic gene regulation. Current Opinion in Chemical Biology 14(5): 623-633
Li, K.; Qin, W.; Li, F.; Zhao, X.; Jiang, B.; Wang, K.; Deng, S.; Fan, C.; Li, D. 2013: Nanoplasmonic imaging of latent fingerprints and identification of cocaine. Angewandte Chemie 52(44): 11542-11545
Gullans, M.; Tiecke, T.G.; Chang, D.E.; Feist, J.; Thompson, J.D.; Cirac, J.I.; Zoller, P.; Lukin, M.D. 2012: Nanoplasmonic lattices for ultracold atoms. Physical Review Letters 109(23): 235309
Asanuma, H.; Subedi, P.; Hartmann, Jürgen.; Shen, Y.; Möhwald, H.; Nakanishi, T.; Skirtach, A. 2013: Nanoplasmonic modification of the local morphology, shape, and wetting properties of nanoflake microparticles. Langmuir 29(24): 7464-7471
Larsson, E.M.; Langhammer, C.; Zorić, I.; Kasemo, B. 2009: Nanoplasmonic probes of catalytic reactions. Science 326(5956): 1091-1094
Inci, F.; Tokel, O.; Wang, S.; Gurkan, U.A.; Tasoglu, S.; Kuritzkes, D.R.; Demirci, U. 2013: Nanoplasmonic quantitative detection of intact viruses from unprocessed whole blood. Acs Nano 7(6): 4733-4745
Dahlin, A.B.; Zahn, R.; Vörös, J. 2012: Nanoplasmonic sensing of metal-halide complex formation and the electric double layer capacitor. Nanoscale 4(7): 2339-2351
Güngör, K.ıv.ç; Unal, E.; Demir, H.V. 2013: Nanoplasmonic surfaces enabling strong surface-normal electric field enhancement. Optics Express 21(20): 23097-23106
Heshmat, B.; Pahlevaninezhad, H.; Pang, Y.; Masnadi-Shirazi, M.; Burton Lewis, R.; Tiedje, T.; Gordon, R.; Darcie, T.E. 2012: Nanoplasmonic terahertz photoconductive switch on GaAs. Nano Letters 12(12): 6255-6259
Palankar, R.; Pinchasik, B.-E.; Khlebtsov, B.N.; Kolesnikova, T.A.; Möhwald, H.; Winterhalter, M.; Skirtach, A.G. 2014: Nanoplasmonically-induced defects in lipid membrane monitored by ion current: transient nanopores versus membrane rupture. Nano Letters 14(8): 4273-4279
Liz-Marzán, L.M.; Murphy, C.J.; Wang, J. 2014: Nanoplasmonics. Chemical Society Reviews 43(11): 3820-3822
Jooshesh, A.; Smith, L.; Masnadi-Shirazi, M.; Bahrami-Yekta, V.; Tiedje, T.; Darcie, T.E.; Gordon, R. 2014: Nanoplasmonics enhanced terahertz sources. Optics Express 22(23): 27992-28001
Baffou, G.; Quidant, R. 2014: Nanoplasmonics for chemistry. Chemical Society Reviews 43(11): 3898-3907
Delcea, M.; Sternberg, N.; Yashchenok, A.M.; Georgieva, R.; Bäumler, H.; Möhwald, H.; Skirtach, A.G. 2012: Nanoplasmonics for dual-molecule release through nanopores in the membrane of red blood cells. Acs Nano 6(5): 4169-4180
Forestiere, C.; Walsh, G.F.; Miano, G.; Dal Negro, L. 2009: Nanoplasmonics of prime number arrays. Optics Express 17(26): 24288-24303
Duan, H.; Fernández-Domínguez, A.I.; Bosman, M.; Maier, S.A.; Yang, J.K.W. 2012: Nanoplasmonics: classical down to the nanometer scale. Nano Letters 12(3): 1683-1689
Stockman, M.I. 2011: Nanoplasmonics: past, present, and glimpse into future. Optics Express 19(22): 22029-22106
Besseling, E.; Wang, B.; Lürling, M.; Koelmans, A.A. 2014: Nanoplastic affects growth of S. obliquus and reproduction of D. magna. Environmental Science and Technology 48(20): 12336-12343
Chen, X.; Hu, J.; Chen, Z.; Feng, X.; Li, A. 2009: Nanoplated bismuth titanate sub-microspheres for protein immobilization and their corresponding direct electrochemistry and electrocatalysis. Biosensors and Bioelectronics 24(12): 3448-3454
Boden, A.é; Boerner, B.; Kusch, P.; Firkowska, I.; Reich, S. 2014: Nanoplatelet size to control the alignment and thermal conductivity in copper-graphite composites. Nano Letters 14(6): 3640-3644
Stöter, M.; Kunz, D.A.; Schmidt, M.; Hirsemann, D.; Kalo, H.; Putz, B.; Senker, J.ür.; Breu, J. 2013: Nanoplatelets of sodium hectorite showing aspect ratios of ≈20,000 and superior purity. Langmuir 29(4): 1280-1285
Arifler, D. 2013: Nanoplatform-based optical contrast enhancement in epithelial tissues: quantitative analysis via Monte Carlo simulations and implications on precancer diagnostics. Optics Express 21(3): 3693-3707
Kayhan, S.; Sarı, N.şe.; Nartop, D. 2015: Nanoplatforms attached Schiff bases by condensation method; Investigation of glucose oxidase enzyme as biocatalysts. Artificial Cells Nanomedicine and Biotechnology 43(4): 224-229
Kateb, B.; Chiu, K.; Black, K.L.; Yamamoto, V.; Khalsa, B.; Ljubimova, J.Y.; Ding, H.; Patil, R.; Portilla-Arias, J.A.; Modo, M.; Moore, D.F.; Farahani, K.; Okun, M.S.; Prakash, N.; Neman, J.; Ahdoot, D.; Grundfest, W.; Nikzad, S.; Heiss, J.D. 2011: Nanoplatforms for constructing new approaches to cancer treatment, imaging, and drug delivery: what should be the policy?. Neuroimage 54(Suppl 1): S106-S124
Wang, H.; Udukala, D.N.; Samarakoon, T.N.; Basel, M.T.; Kalita, M.; Abayaweera, G.; Manawadu, H.; Malalasekera, A.; Robinson, C.; Villanueva, D.; Maynez, P.; Bossmann, L.; Riedy, E.; Barriga, J.; Wang, N.; Li, P.; Higgins, D.A.; Zhu, G.; Troyer, D.L.; Bossmann, S.H. 2014: Nanoplatforms for highly sensitive fluorescence detection of cancer-related proteases. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 13(2): 231-240
Cywińska, M.A.; Grudziński, I.P.; Cieszanowski, A.; Bystrzejewski, M.ł; Popławska, M. 2011: Nanoplatforms for magnetic resonance imaging of cancer. Polish Journal of Radiology 76(2): 28-36
Cai, W.; Chen, X. 2007: Nanoplatforms for targeted molecular imaging in living subjects. Small 3(11): 1840-1854
Zhou, J.; Tang, D.; Hou, L.; Cui, Y.; Chen, H.; Chen, G. 2012: Nanoplatinum-enclosed gold nanocores as catalytically promoted nanolabels for sensitive electrochemical immunoassay. Analytica Chimica Acta 751: 52-58
Li, C.; Penet, M.-F.; Wildes, F.é; Takagi, T.; Chen, Z.; Winnard, P.T.; Artemov, D.; Bhujwalla, Z.M. 2010: Nanoplex delivery of siRNA and prodrug enzyme for multimodality image-guided molecular pathway targeted cancer therapy. Acs Nano 4(11): 6707-6716
Manchanda, R.; Fernandez-Fernandez, A.; Carvajal, D.A.; Lei, T.; Tang, Y.; McGoron, A.J. 2012: Nanoplexes for cell imaging and hyperthermia: in vitro studies. Journal of Biomedical Nanotechnology 8(4): 686-694
Elkaseh, A.A.O.; Büttner, U.; Meincken, M.; Hardie, G.L.; Srinivasu, V.V.; Perold, W.J. 2007: Nanoplough-constrictions on thin YBCO films made with atomic force microscopy. Journal of Nanoscience and Nanotechnology 7(9): 3348-3349
Zhang, K.; Cutler, J.I.; Zhang, J.; Zheng, D.; Auyeung, E.; Mirkin, C.A. 2010: Nanopod formation through gold nanoparticle templated and catalyzed cross-linking of polymers bearing pendant propargyl ethers. Journal of the American Chemical Society 132(43): 15151-15153
Lin, C.-I.; Lau, C.-Y.; Li, D.; Jaminet, S.-C. 2014: Nanopodia--thin, fragile membrane projections with roles in cell movement and intercellular interactions. Journal of Visualized Experiments: Jove 2014(86)
Shetty, A.; Chen, S.; Tocheva, E.I.; Jensen, G.J.; Hickey, W.J. 2011: Nanopods: a new bacterial structure and mechanism for deployment of outer membrane vesicles. Plos one 6(6): E20725
Neuhauser, D. 2011: Nanopolaritonics with a continuum of molecules: simulations of molecular-induced selectivity in plasmonics transport through a continuous Y-shape. Journal of Chemical Physics 135(20): 204305
Savasta, S.; Saija, R.; Ridolfo, A.; Di Stefano, O.; Denti, P.; Borghese, F. 2010: Nanopolaritons: vacuum Rabi splitting with a single quantum dot in the center of a dimer nanoantenna. Acs Nano 4(11): 6369-6376
Sayle, D.C.; Mangili, B.ît.C.; Price, D.W.; Sayle, T.X. 2010: Nanopolycrystalline materials; a general atomistic model for simulation. Physical Chemistry Chemical Physics: Pccp 12(30): 8584-8596
Tong, Y.-C.; Yu, T.-Y.; Chang, S.-F.; Liaw, J. 2012: Nanopolymeric micelle effect on the transdermal permeability, the bioavailability and gene expression of plasmid. Molecular Pharmaceutics 9(1): 111-120
Mukhopadhyay, M.; Mandal, A.; Misra, R.; Banerjee, D.; Bhattacharyya, S.P.; Mukherjee, S. 2009: Nanopools governing proton transfer in diametrical ways in the ground and excited state. Journal of Physical Chemistry. B 113(2): 567-573
Fu, Y.; Tokuhisa, H.; Baker, L.A. 2009: Nanopore DNA sensors based on dendrimer-modified nanopipettes. Chemical Communications 32: 4877-4879
Derrington, I.M.; Butler, T.Z.; Collins, M.D.; Manrao, E.; Pavlenok, M.; Niederweis, M.; Gundlach, J.H. 2010: Nanopore DNA sequencing with MspA. Proceedings of the National Academy of Sciences of the United States of America 107(37): 16060-16065
Timp, W.; Mirsaidov, U.M.; Wang, D.; Comer, J.; Aksimentiev, A.; Timp, G. 2010: Nanopore Sequencing: Electrical Measurements of the Code of Life. IEEE Transactions on Nanotechnology 9(3): 281-294
Stefureac, R.; Waldner, L.; Howard, P.; Lee, J.S. 2008: Nanopore analysis of a small 86-residue protein. Small 4(1): 59-63
Wanunu, M.; Bhattacharya, S.; Xie, Y.; Tor, Y.; Aksimentiev, A.; Drndic, M. 2011: Nanopore analysis of individual RNA/antibiotic complexes. Acs Nano 5(12): 9345-9353
Deamer, D. 2010: Nanopore analysis of nucleic acids bound to exonucleases and polymerases. Annual Review of Biophysics 39: 79-90
Meng, H.; Detillieux, D.; Baran, C.; Krasniqi, B.; Christensen, C.; Madampage, C.; Stefureac, R.I.; Lee, J.S. 2010: Nanopore analysis of tethered peptides. Journal of Peptide Science: An Official Publication of the European Peptide Society 16(12): 701-708
Lee, J.S. 2014: Nanopore analysis of the effect of metal ions on the folding of peptides and proteins. Protein and Peptide Letters 21(3): 247-255
Stefureac, R.I.; Lee, J.S. 2008: Nanopore analysis of the folding of zinc fingers. Small 4(10): 1646-1650
Stefureac, R.I.; Madampage, C.A.; Andrievskaia, O.; Lee, J.S. 2010: Nanopore analysis of the interaction of metal ions with prion proteins and peptides. Biochemistry and Cell Biology 88(2): 347-358
Jetha, N.N.; Semenchenko, V.; Wishart, D.S.; Cashman, N.R.; Marziali, A. 2013: Nanopore analysis of wild-type and mutant prion protein (PrP(C)): single molecule discrimination and PrP(C) kinetics. Plos one 8(2): E54982
Wang, H.-Y.; Ying, Y.-L.; Li, Y.; Kraatz, H.-B.; Long, Y.-T. 2011: Nanopore analysis of β-amyloid peptide aggregation transition induced by small molecules. Analytical Chemistry 83(5): 1746-1752
Madampage, C.A.; Marciniuk, K.; Määttänen, P.; Cashman, N.R.; Potter, A.; Lee, J.S.; Napper, S. 2013: Nanopore analysis reveals differences in structural stability of ovine PrP(C) proteins corresponding to scrapie susceptible (VRQ) and resistance (ARR) genotypes. Prion 7(6): 511-519
Madampage, C.; Tavassoly, O.; Christensen, C.; Kumari, M.; Lee, J.S. 2012: Nanopore analysis: An emerging technique for studying the folding and misfolding of proteins. Prion 6(2): 116-123
Howorka, S.; Siwy, Z. 2009: Nanopore analytics: sensing of single molecules. Chemical Society Reviews 38(8): 2360-2384
Han, Y.; Zhou, S.; Wang, L.; Guan, X. 2015: Nanopore back titration analysis of dipicolinic acid. Electrophoresis 36(3): 467-470
Singer, A.; Wanunu, M.; Morrison, W.; Kuhn, H.; Frank-Kamenetskii, M.; Meller, A. 2010: Nanopore based sequence specific detection of duplex DNA for genomic profiling. Nano Letters 10(2): 738-742
Wang, L.; Han, Y.; Zhou, S.; Wang, G.; Guan, X. 2014: Nanopore biosensor for label-free and real-time detection of anthrax lethal factor. Acs Applied Materials and Interfaces 6(10): 7334-7339
Winters-Hilt, S.; Davis, A.; Amin, I.; Morales, E. 2007: Nanopore current transduction analysis of protein binding to non-terminal and terminal DNA regions: analysis of transcription factor binding, retroviral DNA terminus dynamics, and retroviral integrase-DNA binding. Bmc Bioinformatics 8(Suppl 7): S10
Lin, J.; Fabian, M.; Sonenberg, N.; Meller, A. 2012: Nanopore detachment kinetics of poly(A) binding proteins from RNA molecules reveals the critical role of C-terminus interactions. Biophysical Journal 102(6): 1427-1434
Schibel, A.E.P.; An, N.; Jin, Q.; Fleming, A.M.; Burrows, C.J.; White, H.S. 2010: Nanopore detection of 8-oxo-7,8-dihydro-2'-deoxyguanosine in immobilized single-stranded DNA via adduct formation to the DNA damage site. Journal of the American Chemical Society 132(51): 17992-17995
Zhang, Y.; Liu, L.; Sha, J.; Ni, Z.; Yi, H.; Chen, Y. 2013: Nanopore detection of DNA molecules in magnesium chloride solutions. Nanoscale Research Letters 8(1): 245
Wang, G.; Wang, L.; Han, Y.; Zhou, S.; Guan, X. 2014: Nanopore detection of copper ions using a polyhistidine probe. Biosensors and Bioelectronics 53: 453-458